#
# File created by  Match_Resource_to_Pin V3.1 at Thu Oct 10 12:05:43 2013
# derived from input Netlist file <all_base_fpga_assign_n2r.txt>
# and Resource to Pin dictionary <all_ff1759_io_banks_r2p.txt>
#

############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals used for the 400 Backplane Processor Inputs
#             -=============-------------------------------------------------------------
#
#
#     Original Rev. 26-Sep-2011 as separate PN files
#              Rev.  3-Nov-2011 merged and ordered into one file
#              Rev. 21-May-2012 rework assignment using paper and pencil
#              Rev. 22-Jun-2012 move P08-P11 and P12-P15 to inner column
#                               and reroute all while preserving all VREF and
#                               one set of VRP/VRN per group of 3 IO banks.
#              Rev. 25-Jun-2012 move P00-P03 from IO banks 36-37-38 to 35-36-37,
#                               move P4, P5, P6 clocks to remain at 2 clocks per H-row
#                              (and fix IO bank used for P5_21, P5_22, P7_00, P7_01)
#              Rev. 27-Jun-2012 fix typo from P12_17 BA29 <IO_L12N_VRP_22>
#                                          to P12_17 BA20 <IO_L8N_SRCC_32>
#              Rev. 29-Jun-2012 allow a few traces on top layer for P08-P11 group (banks 21-23)
#                               in order to only use 10 layers (top+9)
#              Rev. 10-Jul-2012 fix problem: a VREF signal had been assigned to P12_13
#              Rev. 12-Jul-2012 expunge information about "rank"
#              Rev. 20-Aug-2012 Assignment redone with corrected backplane pin order
#              Rev. 29-Aug-2012 switch P08-P11 to 11 layers, fixed P04-P07 template error
#              Rev. 07-Sep-2012 cosmetic changes to header comments
#              Rev. 12-Nov-2012 Complete re-think with a ring of vias and only 8 internal trace layers
#              Rev. 19-Nov-2012 Free up 4x SysMonit pairs on Bank 35 and 1x Global Clock pair on Bank 34
#              Rev. 28-Nov-2012 cross-check assignments and add via row and number
#              Rev: 11-Dec-2012 Cosmetic changes for uniformity and consistency between Base and TP files
#              Rev: 24-Jan-2013 Bug fix: Move P12_17 to bank 33 (was in 34) by swapping with P15_20
#              Rev: 28-Mar-2013 Move seven P14 and P15 signals to free the second Global Clock from Bank 34
#              Rev: 08-May-2013 Swap location of P8_0:2 to match the newly displaced vias
#              Rev: 17-May-2013 Rearrange P14_1,2,6:9 to solve layer 4 boundary conflict (P08:11 vs P12:14),
#                               swap P9_17 & _19 to better spread traces among via channels on layer 4
#                               and rearrange P12_18:21 to solve layer 9 boundary conflict (P08:11 vs P12:14)
#                               which also involved putting pin AV23 into use and dropping AY24
#  Most Recent Rev: 22-May-2013 Rearrange P6_8,9,10 to ease layer 3 trace density
#
#   Here we assign Base FPGA resources for the 400x Px_y backplane signals,
#   with x=0:15 corresponding to the relative source processor module (JEM or CPM) in the crate,
#   and y=0:24 corresponding to the signal index number from that processor source.
#   Each Px_24 signal carries the clock/parity signal from a given source processor board.
#   All Px_24 signals must be connected to a single ended regional clock resource pin
#   (i.e. a signal named IO_L9P_MRCC_nn or IO_L10P_MRCC_nn, nn being the IO block number)
#
#   Note: Trace layer information is appended as comments below.
#   -----
#
#   The Match Resource To Pin program will preserve this comment field, and append additional info.
#
#   NET   'P0_7'             U1-<IO_L17P_35>          #> F07 R1V3 #> T04 J1-A18  P00_07   D13
#
#                                  ^                   ^  ^   ^       ^   ^         ^      ^
#                                  |                   |  |   |       |   |         |      |
#   Virtex 6 Resource name --------+                   |  |   |       |   |         |      |
#   for Match_res2pin translation                      |  |   |       |   |         |      |
#                                                      |  |   |       |   |         |      |
#   Tailored comment flag to help with string searches +  |   |       |   |         |      |
#                                                         |   |       |   |         |      |
#   Target Trace Layer number to use for this net --------+   |       |   |         |      |
#   as it exits the FPGA (to a near via or the backplane)     |       |   |         |      |
#   F01 is top layer, F02 the first inner layer, etc          |       |   |         |      |
#                                                             |       |   |         |      |
#   When applicable: Via row (R1 is top row on sheet) --------+       |   |         |      |
#   and via number (V1 is leftmost) as determined in paper study      |   |         |      |
#                                                                     |   |         |      |
#   Target Trace Layer number to use for this net --------------------+   |         |      |
#   as it attaches to the backplane connector.                            |         |      |
#   T01 is top layer, T02 the first inner layer, etc                      |         |      |
#                                                                         |         |      |
#   Backplane Connector and Pin Number -----------------------------------+         |      |
#                                                                                   |      |
#   Net Name repeated to help manual entry of Pin Number ---------------------------+      |
#                                                                                          |
#   Target Pin Number read from paper drawing ---------------------------------------------+
#   and cross-checked after Match_Res2Pin
#
############################################################################################

#########################################################################################
#
# The Processor Inputs in P0-P1-P2-P3 use IO resources from banks 35-36-37
# P0_24  uses a regional clock in IO bank 35 on trace layer  9
# P1_24  uses a regional clock in IO bank 35 on trace layer  9
# P2_24  uses a regional clock in IO bank 37 on trace layer  4
# P3_24  uses a regional clock in IO bank 36 on trace layer  9
# The DCI master for this group is IO bank 36
#

NET   'P0_0'             U1-L11          #> F02      #> T02 J1-A11  P00_00   L11  IO_L16N_VRP_35
NET   'P0_1'             U1-M12          #> F02      #> T02 J1-A12  P00_01   M12  IO_L18N_GC_35
NET   'P0_2'             U1-N13          #> F02      #> T02 J1-A13  P00_02   N13  IO_L10N_MRCC_35
NET   'P0_3'             U1-N14          #> F02      #> T02 J1-A14  P00_03   N14  IO_L9N_MRCC_35
NET   'P0_4'             U1-C14          #> F02      #> T02 J1-A15  P00_04   C14  IO_L13N_SM6N_35
NET   'P0_5'             U1-L12          #> F04      #> T04 J1-A16  P00_05   L12  IO_L18P_GC_35
NET   'P0_6'             U1-J13          #> F04      #> T04 J1-A17  P00_06   J13  IO_L12P_SM5P_35
NET   'P0_7'             U1-D13          #> F07 R1V3 #> T04 J1-A18  P00_07   D13  IO_L17P_35
NET   'P0_8'             U1-E12          #> F07 R1V1 #> T04 J1-A19  P00_08   E12  IO_L0N_35
NET   'P0_9'             U1-H14          #> F04      #> T04 J2-A1   P00_09   H14  IO_L4P_35
NET   'P0_10'            U1-F14          #> F04      #> T04 J2-A2   P00_10   F14  IO_L19N_GC_35
NET   'P0_11'            U1-D17          #> F06 R2V3 #> T04 J2-A3   P00_11   D17  IO_L19P_36
NET   'P0_12'            U1-B16          #> F01 R2V4 #> T04 J2-A4   P00_12   B16  IO_L1N_35
NET   'P0_13'            U1-F15          #> F07 R2V1 #> T04 J2-A5   P00_13   F15  IO_L11N_SRCC_35
NET   'P0_14'            U1-J16          #> F04      #> T04 J2-A6   P00_14   J16  IO_L4P_36
NET   'P0_15'            U1-J17          #> F04      #> T04 J2-A7   P00_15   J17  IO_L6N_36
NET   'P0_16'            U1-K18          #> F04      #> T04 J2-A8   P00_16   K18  IO_L0P_36
NET   'P0_17'            U1-B18          #> F01 R3V6 #> T04 J2-A9   P00_17   B18  IO_L15P_36
NET   'P0_18'            U1-E18          #> F07 R3V3 #> T04 J2-A10  P00_18   E18  IO_L5N_36
NET   'P0_19'            U1-G18          #> F07 R3V1 #> T04 J2-A11  P00_19   G18  IO_L1N_36
NET   'P0_20'            U1-J18          #> F04      #> T04 J2-A12  P00_20   J18  IO_L0N_36
NET   'P0_21'            U1-F19          #> F04      #> T04 J2-A13  P00_21   F19  IO_L3N_36
NET   'P0_22'            U1-E17          #> F09 R4V4 #> T04 J2-A14  P00_22   E17  IO_L19N_36
NET   'P0_23'            U1-P18          #> F09 R4V2 #> T04 J2-A15  P00_23   P18  IO_L9P_MRCC_36
NET   'P0_24'            U1-M13          #> F09      #> T09 J2-A16  P00_24   M13  IO_L10P_MRCC_35

NET   'P1_0'             U1-K14          #> F03      #> T03 J1-B15  P01_00   K14  IO_L14P_35
NET   'P1_1'             U1-J11          #> F09      #> T09 J1-C16  P01_01   J11  IO_L8N_SRCC_35
NET   'P1_2'             U1-J12          #> F09      #> T09 J1-B17  P01_02   J12  IO_L8P_SRCC_35
NET   'P1_3'             U1-F12          #> F09      #> T09 J1-C18  P01_03   F12  IO_L0P_35
NET   'P1_4'             U1-B14          #> F01 R1V2 #> T05 J1-B19  P01_04   B14  IO_L13P_SM6P_35
NET   'P1_5'             U1-A14          #> F01 R1V4 #> T05 J2-C1   P01_05   A14  IO_L5N_SM2N_35
NET   'P1_6'             U1-K13          #> F03 R1V8 #> T05 J2-B2   P01_06   K13  IO_L12N_SM5N_35
NET   'P1_7'             U1-K12          #> F05      #> T05 J2-C3   P01_07   K12  IO_L16P_VRN_35
NET   'P1_8'             U1-E13          #> F05      #> T05 J2-B4   P01_08   E13  IO_L17N_35
NET   'P1_9'             U1-G14          #> F05      #> T05 J2-C5   P01_09   G14  IO_L2N_SM0N_35
NET   'P1_10'            U1-J15          #> F05      #> T05 J2-B6   P01_10   J15  IO_L14P_36
NET   'P1_11'            U1-A16          #> F01 R2V5 #> T05 J2-C7   P01_11   A16  IO_L1P_35
NET   'P1_12'            U1-A15          #> F01 R2V7 #> T05 J2-B8   P01_12   A15  IO_L5P_SM2P_35
NET   'P1_13'            U1-E14          #> F07 R2V2 #> T05 J2-C9   P01_13   E14  IO_L19P_GC_35
NET   'P1_14'            U1-G16          #> F05      #> T05 J2-B10  P01_14   G16  IO_L2P_36
NET   'P1_15'            U1-G17          #> F05      #> T05 J2-C11  P01_15   G17  IO_L11N_SRCC_36
NET   'P1_16'            U1-D18          #> F06 R3V5 #> T05 J2-B12  P01_16   D18  IO_L13P_36
NET   'P1_17'            U1-H15          #> F09 R3V7 #> T05 J2-C13  P01_17   H15  IO_L2P_SM0P_35
NET   'P1_18'            U1-E15          #> F07 R3V4 #> T05 J2-B14  P01_18   E15  IO_L11P_SRCC_35
NET   'P1_19'            U1-F16          #> F07 R3V2 #> T05 J2-C15  P01_19   F16  IO_L2N_36
NET   'P1_20'            U1-F17          #> F05      #> T05 J2-B16  P01_20   F17  IO_L11P_SRCC_36
NET   'P1_21'            U1-H18          #> F05      #> T05 J2-B17  P01_21   H18  IO_L1P_36
NET   'P1_22'            U1-A19          #> F01 R4V6 #> T05 J2-B18  P01_22   A19  IO_L15N_36
NET   'P1_23'            U1-E19          #> F05      #> T05 J2-C19  P01_23   E19  IO_L5P_36
NET   'P1_24'            U1-M14          #> F09      #> T09 J3-B1   P01_24   M14  IO_L9P_MRCC_35

NET   'P2_0'             U1-L15          #> F03      #> T03 J1-D15  P02_00   L15  IO_L16N_36
NET   'P2_1'             U1-L16          #> F03      #> T03 J1-D16  P02_01   L16  IO_L16P_36
NET   'P2_2'             U1-B17          #> F01 R2V6 #> T03 J1-C17  P02_02   B17  IO_L17N_36
NET   'P2_3'             U1-K17          #> F03      #> T03 J1-D18  P02_03   K17  IO_L6P_36
NET   'P2_4'             U1-M18          #> F03      #> T03 J1-C19  P02_04   M18  IO_L8P_SRCC_36
NET   'P2_5'             U1-K19          #> F03      #> T03 J2-D1   P02_05   K19  IO_L18P_37
NET   'P2_6'             U1-G19          #> F03      #> T03 J2-C2   P02_06   G19  IO_L3P_36
NET   'P2_7'             U1-F20          #> F03      #> T03 J2-D3   P02_07   F20  IO_L12N_VRP_37
NET   'P2_8'             U1-G21          #> F03      #> T03 J2-C4   P02_08   G21  IO_L8N_SRCC_37
NET   'P2_9'             U1-C20          #> F09 R4V1 #> T03 J2-D5   P02_09   C20  IO_L19P_37
NET   'P2_10'            U1-A20          #> F01 R4V3 #> T03 J2-C6   P02_10   A20  IO_L15N_37
NET   'P2_11'            U1-C21          #> F01 R4V5 #> T03 J2-D7   P02_11   C21  IO_L17P_37
NET   'P2_12'            U1-H21          #> F03      #> T03 J2-C8   P02_12   H21  IO_L6P_37
NET   'P2_13'            U1-G22          #> F03      #> T03 J2-D9   P02_13   G22  IO_L2P_37
NET   'P2_14'            U1-E23          #> F03      #> T03 J2-C10  P02_14   E23  IO_L7N_37
NET   'P2_15'            U1-B22          #> F01 R5V2 #> T03 J2-D11  P02_15   B22  IO_L5N_37
NET   'P2_16'            U1-B24          #> F01 R5V5 #> T03 J2-C12  P02_16   B24  IO_L1P_37
NET   'P2_17'            U1-A24          #> F01 R5V3 #> T03 J2-D13  P02_17   A24  IO_L1N_37
NET   'P2_18'            U1-B23          #> F01 R5V1 #> T03 J2-C14  P02_18   B23  IO_L5P_37
NET   'P2_19'            U1-D23          #> F03      #> T03 J2-D15  P02_19   D23  IO_L11P_SRCC_37
NET   'P2_20'            U1-E20          #> F04      #> T04 J2-C16  P02_20   E20  IO_L12P_VRN_37
NET   'P2_21'            U1-F21          #> F04      #> T04 J2-D17  P02_21   F21  IO_L4P_37
NET   'P2_22'            U1-F22          #> F04      #> T04 J2-C18  P02_22   F22  IO_L2N_37
NET   'P2_23'            U1-D22          #> F04      #> T04 J2-D19  P02_23   D22  IO_L11N_SRCC_37
NET   'P2_24'            U1-J22          #> F04      #> T04 J3-C1   P02_24   J22  IO_L10P_MRCC_37

NET   'P3_0'             U1-N15          #> F02      #> T02 J1-E15  P03_00   N15  IO_L18N_36
NET   'P3_1'             U1-A17          #> F01 R2V8 #> T02 J1-E16  P03_01   A17  IO_L17P_36
NET   'P3_2'             U1-M16          #> F02      #> T02 J1-E17  P03_02   M16  IO_L18P_36
NET   'P3_3'             U1-P17          #> F02      #> T02 J1-E18  P03_03   P17  IO_L9N_MRCC_36
NET   'P3_4'             U1-N18          #> F02      #> T02 J1-E19  P03_04   N18  IO_L8N_SRCC_36
NET   'P3_5'             U1-C18          #> F02      #> T02 J2-E1   P03_05   C18  IO_L13N_36
NET   'P3_6'             U1-L19          #> F02      #> T02 J2-E2   P03_06   L19  IO_L18N_37
NET   'P3_7'             U1-B19          #> F01 R3V8 #> T02 J2-E3   P03_07   B19  IO_L7N_36
NET   'P3_8'             U1-C19          #> F02      #> T02 J2-E4   P03_08   C19  IO_L7P_36
NET   'P3_9'             U1-H20          #> F02      #> T02 J2-E5   P03_09   H20  IO_L8P_SRCC_37
NET   'P3_10'            U1-J20          #> F02      #> T02 J2-E6   P03_10   J20  IO_L14P_37
NET   'P3_11'            U1-D21          #> F02      #> T02 J2-E7   P03_11   D21  IO_L17N_37
NET   'P3_12'            U1-J21          #> F02      #> T02 J2-E8   P03_12   J21  IO_L6N_37
NET   'P3_13'            U1-A21          #> F01 R4V8 #> T02 J2-E9   P03_13   A21  IO_L13N_37
NET   'P3_14'            U1-L22          #> F02      #> T02 J2-E10  P03_14   L22  IO_L9P_MRCC_37
NET   'P3_15'            U1-K22          #> F02      #> T02 J2-E11  P03_15   K22  IO_L10N_MRCC_37
NET   'P3_16'            U1-G23          #> F02      #> T02 J2-E12  P03_16   G23  IO_L0P_37
NET   'P3_17'            U1-C23          #> F02      #> T02 J2-E13  P03_17   C23  IO_L3N_37
NET   'P3_18'            U1-A22          #> F01 R5V4 #> T02 J2-E14  P03_18   A22  IO_L13P_37
NET   'P3_19'            U1-B21          #> F01 R5V8 #> T02 J2-E15  P03_19   B21  IO_L15P_37
NET   'P3_20'            U1-H23          #> F02      #> T02 J2-E16  P03_20   H23  IO_L0N_37
NET   'P3_21'            U1-C24          #> F02      #> T02 J2-E17  P03_21   C24  IO_L3P_37
NET   'P3_22'            U1-E24          #> F02      #> T02 J2-E18  P03_22   E24  IO_L7P_37
NET   'P3_23'            U1-D20          #> F05      #> T05 J2-E19  P03_23   D20  IO_L19N_37
NET   'P3_24'            U1-N16          #> F09      #> T09 J3-E1   P03_24   N16  IO_L10P_MRCC_36

NET   'P0TO3_DCI_P'      U1-M17          #> T08                  M17  IO_L12N_VRP_36
NET   'P0TO3_DCI_N'      U1-L17          #> T08                  L17  IO_L12P_VRN_36

NET   'VREF_P'           U1-G13          #> T08                  G13  IO_L4N_VREF_35
NET   'VREF_P'           U1-L14          #> T08                  L14  IO_L14N_VREF_35
NET   'VREF_P'           U1-H16          #> T08                  H16  IO_L4N_VREF_36
NET   'VREF_P'           U1-K15          #> T08                  K15  IO_L14N_VREF_36
NET   'VREF_P'           U1-E22          #> T08                  E22  IO_L4N_VREF_37
NET   'VREF_P'           U1-H19          #> T08                  H19  IO_L14N_VREF_37


#########################################################################################
#
# The Processor Inputs in P4-P5-P6-P7 use IO resources from banks 26-27-28
# P4_24  uses a regional clock in IO bank 28 on trace layer  9
# P5_24  uses a regional clock in IO bank 28 on trace layer  9
# P6_24  uses a regional clock in IO bank 26 on trace layer  5
# P7_24  uses a regional clock in IO bank 27 on trace layer  9
# The DCI master for this group is IO bank 28
#

NET   'P4_0'             U1-N25          #> F02      #> T02 J3-A1   P04_00   N25  IO_L10N_MRCC_28
NET   'P4_1'             U1-M26          #> F02      #> T02 J3-A2   P04_01   M26  IO_L19P_28
NET   'P4_2'             U1-L27          #> F02      #> T02 J3-A3   P04_02   L27  IO_L18P_28
NET   'P4_3'             U1-H28          #> F02      #> T02 J3-A4   P04_03   H28  IO_L14P_28
NET   'P4_4'             U1-C29          #> F02      #> T02 J3-A5   P04_04   C29  IO_L15N_28
NET   'P4_5'             U1-M29          #> F02      #> T02 J3-A6   P04_05   M29  IO_L10N_MRCC_27
NET   'P4_6'             U1-E30          #> F02      #> T02 J3-A7   P04_06   E30  IO_L3P_28
NET   'P4_7'             U1-C31          #> F02      #> T02 J3-A8   P04_07   C31  IO_L5P_28
NET   'P4_8'             U1-H31          #> F02      #> T02 J3-A9   P04_08   H31  IO_L6P_27
NET   'P4_9'             U1-G32          #> F02      #> T02 J3-A10  P04_09   G32  IO_L8N_SRCC_27
NET   'P4_10'            U1-C33          #> F02      #> T02 J3-A11  P04_10   C33  IO_L3N_27
NET   'P4_11'            U1-H33          #> F02      #> T02 J3-A12  P04_11   H33  IO_L12P_VRN_27
NET   'P4_12'            U1-L25          #> F03 R1V2 #> T05 J3-A13  P04_12   L25  IO_L9N_MRCC_28
NET   'P4_13'            U1-J26          #> F03 R1V4 #> T05 J3-A14  P04_13   J26  IO_L0N_28
NET   'P4_14'            U1-A30          #> F01 R1V5 #> T05 J3-A15  P04_14   A30  IO_L17N_28
NET   'P4_15'            U1-B29          #> F01 R1V3 #> T05 J3-A16  P04_15   B29  IO_L15P_28
NET   'P4_16'            U1-A29          #> F01 R1V1 #> T05 J3-A17  P04_16   A29  IO_L17P_28
NET   'P4_17'            U1-F27          #> F05      #> T05 J3-A18  P04_17   F27  IO_L11P_SRCC_28
NET   'P4_18'            U1-D28          #> F05      #> T05 J3-A19  P04_18   D28  IO_L1P_28
NET   'P4_19'            U1-E29          #> F05      #> T05 J4-A1   P04_19   E29  IO_L1N_28
NET   'P4_20'            U1-C30          #> F05      #> T05 J4-A2   P04_20   C30  IO_L7P_28
NET   'P4_21'            U1-D31          #> F05      #> T05 J4-A3   P04_21   D31  IO_L5N_28
NET   'P4_22'            U1-D32          #> F05      #> T05 J4-A4   P04_22   D32  IO_L0N_27
NET   'P4_23'            U1-D33          #> F05      #> T05 J4-A5   P04_23   D33  IO_L11P_SRCC_27
NET   'P4_24'            U1-N24          #> F09      #> T09 J4-A6   P04_24   N24  IO_L10P_MRCC_28

NET   'P5_0'             U1-G28          #> F03      #> T03 J3-C2   P05_00   G28  IO_L2P_28
NET   'P5_1'             U1-P23          #> F04      #> T04 J3-B3   P05_01   P23  IO_L6N_28
NET   'P5_2'             U1-R23          #> F04      #> T04 J3-C4   P05_02   R23  IO_L6P_28
NET   'P5_3'             U1-P25          #> F04      #> T04 J3-B5   P05_03   P25  IO_L8N_SRCC_28
NET   'P5_4'             U1-A31          #> F01 R1V8 #> T04 J3-C6   P05_04   A31  IO_L13P_28
NET   'P5_5'             U1-K27          #> F03 R1V6 #> T04 J3-B7   P05_05   K27  IO_L18N_28
NET   'P5_6'             U1-J27          #> F04      #> T04 J3-C8   P05_06   J27  IO_L0P_28
NET   'P5_7'             U1-G27          #> F04      #> T04 J3-B9   P05_07   G27  IO_L2N_28
NET   'P5_8'             U1-E28          #> F04      #> T04 J3-C10  P05_08   E28  IO_L11N_SRCC_28
NET   'P5_9'             U1-B31          #> F01 R2V7 #> T04 J3-B11  P05_09   B31  IO_L13N_28
NET   'P5_10'            U1-F32          #> F03 R2V8 #> T04 J3-C12  P05_10   F32  IO_L2P_27
NET   'P5_11'            U1-G31          #> F03 R2V6 #> T04 J3-B13  P05_11   G31  IO_L6N_27
NET   'P5_12'            U1-G29          #> F04      #> T04 J3-C14  P05_12   G29  IO_L4P_28
NET   'P5_13'            U1-D30          #> F04      #> T04 J3-B15  P05_13   D30  IO_L7N_28
NET   'P5_14'            U1-F31          #> F04      #> T04 J3-C16  P05_14   F31  IO_L2N_27
NET   'P5_15'            U1-A36          #> F01 R3V7 #> T04 J3-B17  P05_15   A36  IO_L13P_27
NET   'P5_16'            U1-B36          #> F01 R3V8 #> T04 J3-C18  P05_16   B36  IO_L13N_27
NET   'P5_17'            U1-A35          #> F01 R3V6 #> T04 J3-B19  P05_17   A35  IO_L5N_27
NET   'P5_18'            U1-E32          #> F04      #> T04 J4-C1   P05_18   E32  IO_L0P_27
NET   'P5_19'            U1-E33          #> F04      #> T04 J4-B2   P05_19   E33  IO_L11N_SRCC_27
NET   'P5_20'            U1-E34          #> F04      #> T04 J4-C3   P05_20   E34  IO_L17P_27
NET   'P5_21'            U1-E35          #> F04      #> T04 J4-B4   P05_21   E35  IO_L4P_27
NET   'P5_22'            U1-D36          #> F04      #> T04 J4-C5   P05_22   D36  IO_L19P_27
NET   'P5_23'            U1-D37          #> F04      #> T04 J4-B6   P05_23   D37  IO_L19N_27
NET   'P5_24'            U1-L26          #> F09      #> T09 J4-C7   P05_24   L26  IO_L9P_MRCC_28

NET   'P6_0'             U1-A37          #> F01 R4V1 #> T03 J3-D2   P06_00   A37  IO_L1N_26
NET   'P6_1'             U1-C35          #> F05 R4V3 #> T03 J3-C3   P06_01   C35  IO_L15P_27
NET   'P6_2'             U1-F36          #> F05 R4V5 #> T03 J3-D4   P06_02   F36  IO_L10N_MRCC_26
NET   'P6_3'             U1-A39          #> F01 R4V6 #> T03 J3-C5   P06_03   A39  IO_L3N_26
NET   'P6_4'             U1-B38          #> F01 R4V4 #> T03 J3-D6   P06_04   B38  IO_L3P_26
NET   'P6_5'             U1-B37          #> F01 R4V2 #> T03 J3-C7   P06_05   B37  IO_L1P_26
NET   'P6_6'             U1-G36          #> F03      #> T03 J3-D8   P06_06   G36  IO_L0N_26
NET   'P6_7'             U1-F37          #> F03      #> T03 J3-C9   P06_07   F37  IO_L4P_26
NET   'P6_8'             U1-G42          #> F01 R5V3 #> T03 J3-D10  P06_08   G42  IO_L18N_26
NET   'P6_9'             U1-F42          #> F01 R5V5 #> T03 J3-C11  P06_09   F42  IO_L19N_26
NET   'P6_10'            U1-E42          #> F01 R5V4 #> T03 J3-D12  P06_10   E42  IO_L19P_26
NET   'P6_11'            U1-A41          #> F01 R5V2 #> T03 J3-C13  P06_11   A41  IO_L7N_26
NET   'P6_12'            U1-A40          #> F01 R5V1 #> T03 J3-D14  P06_12   A40  IO_L7P_26
NET   'P6_13'            U1-D38          #> F03      #> T03 J3-C15  P06_13   D38  IO_L6P_26
NET   'P6_14'            U1-B39          #> F03      #> T03 J3-D16  P06_14   B39  IO_L5P_26
NET   'P6_15'            U1-C39          #> F03      #> T03 J3-C17  P06_15   C39  IO_L5N_26
NET   'P6_16'            U1-C40          #> F03      #> T03 J3-D18  P06_16   C40  IO_L13P_26
NET   'P6_17'            U1-B41          #> F03      #> T03 J3-C19  P06_17   B41  IO_L11P_SRCC_26
NET   'P6_18'            U1-C41          #> F03      #> T03 J4-D1   P06_18   C41  IO_L13N_26
NET   'P6_19'            U1-D41          #> F03      #> T03 J4-C2   P06_19   D41  IO_L15N_26
NET   'P6_20'            U1-E40          #> F03      #> T03 J4-D3   P06_20   E40  IO_L17N_26
NET   'P6_21'            U1-F40          #> F03      #> T03 J4-C4   P06_21   F40  IO_L16P_26
NET   'P6_22'            U1-F41          #> F03      #> T03 J4-D5   P06_22   F41  IO_L16N_26
NET   'P6_23'            U1-G41          #> F03      #> T03 J4-C6   P06_23   G41  IO_L18P_26
NET   'P6_24'            U1-G34          #> F05      #> T05 J4-D7   P06_24   G34  IO_L9P_MRCC_26

NET   'P7_0'             U1-K29          #> F03 R2V2 #> T09 J3-E2   P07_00   K29  IO_L18P_27
NET   'P7_1'             U1-H30          #> F03 R2V4 #> T09 J3-E3   P07_01   H30  IO_L16P_27
NET   'P7_2'             U1-B33          #> F01 R2V5 #> T09 J3-E4   P07_02   B33  IO_L3P_27
NET   'P7_3'             U1-B32          #> F01 R2V3 #> T09 J3-E5   P07_03   B32  IO_L1N_27
NET   'P7_4'             U1-A32          #> F01 R2V1 #> T09 J3-E6   P07_04   A32  IO_L1P_27
NET   'P7_5'             U1-A34          #> F01 R3V2 #> T09 J3-E7   P07_05   A34  IO_L5P_27
NET   'P7_6'             U1-B34          #> F01 R3V4 #> T09 J3-E8   P07_06   B34  IO_L7P_27
NET   'P7_7'             U1-F35          #> F03 R3V5 #> T09 J3-E9   P07_07   F35  IO_L10P_MRCC_26
NET   'P7_8'             U1-F34          #> F03 R3V3 #> T09 J3-E10  P07_08   F34  IO_L17N_27
NET   'P7_9'             U1-G33          #> F03 R3V1 #> T09 J3-E11  P07_09   G33  IO_L8P_SRCC_27
NET   'P7_10'            U1-C34          #> F02      #> T02 J3-E12  P07_10   C34  IO_L7N_27
NET   'P7_11'            U1-H34          #> F02      #> T02 J3-E13  P07_11   H34  IO_L9N_MRCC_26
NET   'P7_12'            U1-H35          #> F02      #> T02 J3-E14  P07_12   H35  IO_L2N_26
NET   'P7_13'            U1-C36          #> F02      #> T02 J3-E15  P07_13   C36  IO_L15N_27
NET   'P7_14'            U1-H36          #> F02      #> T02 J3-E16  P07_14   H36  IO_L0P_26
NET   'P7_15'            U1-G37          #> F02      #> T02 J3-E17  P07_15   G37  IO_L14P_26
NET   'P7_16'            U1-C38          #> F02      #> T02 J3-E18  P07_16   C38  IO_L6N_26
NET   'P7_17'            U1-E38          #> F02      #> T02 J3-E19  P07_17   E38  IO_L8N_SRCC_26
NET   'P7_18'            U1-D40          #> F02      #> T02 J4-E1   P07_18   D40  IO_L17P_26
NET   'P7_19'            U1-B42          #> F02      #> T02 J4-E2   P07_19   B42  IO_L11N_SRCC_26
NET   'P7_20'            U1-D42          #> F02      #> T02 J4-E3   P07_20   D42  IO_L15P_26
NET   'P7_21'            U1-E39          #> F02      #> T02 J4-E4   P07_21   E39  IO_L8P_SRCC_26
NET   'P7_22'            U1-F39          #> F02      #> T02 J4-E5   P07_22   F39  IO_L12P_VRN_26
NET   'P7_23'            U1-G39          #> F02      #> T02 J4-E6   P07_23   G39  IO_L12N_VRP_26
NET   'P7_24'            U1-L29          #> F09      #> T09 J4-E7   P07_24   L29  IO_L9P_MRCC_27

NET   'P4TO7_DCI_P'      U1-N26          #> T08                  N26  IO_L12N_VRP_28
NET   'P4TO7_DCI_N'      U1-P26          #> T08                  P26  IO_L12P_VRN_28

NET   'VREF_P'           U1-E37          #> T08                  E37  IO_L4N_VREF_26
NET   'VREF_P'           U1-G38          #> T08                  G38  IO_L14N_VREF_26
NET   'VREF_P'           U1-D35          #> T08                  D35  IO_L4N_VREF_27
NET   'VREF_P'           U1-J31          #> T08                  J31  IO_L14N_VREF_27
NET   'VREF_P'           U1-F29          #> T08                  F29  IO_L4N_VREF_28
NET   'VREF_P'           U1-H29          #> T08                  H29  IO_L14N_VREF_28


#########################################################################################
#
# The Processor Inputs in P8-P9-P10-P11 use IO resources from banks 21-22-23
# P8_24  uses a regional clock in IO bank 22 on trace layer  9
# P9_24  uses a regional clock in IO bank 23 on trace layer  9
# P10_24 uses a regional clock in IO bank 21 on trace layer  9
# P11_24 uses a regional clock in IO bank 21 on trace layer  9
# The DCI master for this group is IO bank 23
#

NET   'P8_0'             U1-BA32         #> F01 R1V5 #> T02 J5-A14  P08_00  BA32  IO_L6P_22
NET   'P8_1'             U1-BB33         #> F01 R1V8 #> T02 J5-A15  P08_01  BB33  IO_L14P_22
NET   'P8_2'             U1-BA31         #> F01 R1V6 #> T02 J5-A16  P08_02  BA31  IO_L16P_22
NET   'P8_3'             U1-AV33         #> F06 R1V3 #> T02 J5-A17  P08_03  AV33  IO_L19P_23
NET   'P8_4'             U1-AW33         #> F06 R1V1 #> T02 J5-A18  P08_04  AW33  IO_L19N_23
NET   'P8_5'             U1-AM33         #> F02      #> T02 J5-A19  P08_05  AM33  IO_L3P_23
NET   'P8_6'             U1-AM32         #> F02      #> T02 J5-A20  P08_06  AM32  IO_L3N_23
NET   'P8_7'             U1-BA29         #> F01 R2V8 #> T02 J5-A21  P08_07  BA29  IO_L12N_VRP_22
NET   'P8_8'             U1-AY32         #> F02      #> T02 J5-A22  P08_08  AY32  IO_L4P_22
NET   'P8_9'             U1-AM31         #> F02      #> T02 J5-A23  P08_09  AM31  IO_L1P_23
NET   'P8_10'            U1-AL30         #> F02      #> T02 J5-A24  P08_10  AL30  IO_L2N_23
NET   'P8_11'            U1-AY30         #> F02      #> T02 J5-A25  P08_11  AY30  IO_L8N_SRCC_22
NET   'P8_12'            U1-AK29         #> F02      #> T02 J6-A1   P08_12  AK29  IO_L8N_SRCC_23
NET   'P8_13'            U1-AY29         #> F02      #> T02 J6-A2   P08_13  AY29  IO_L12P_VRN_22
NET   'P8_14'            U1-AM28         #> F02      #> T02 J6-A3   P08_14  AM28  IO_L6N_23
NET   'P8_15'            U1-AK27         #> F02      #> T02 J6-A4   P08_15  AK27  IO_L16P_23
NET   'P8_16'            U1-AN34         #> F09      #> T09 J6-A5   P08_16  AN34  IO_L5N_23
NET   'P8_17'            U1-AU33         #> F09      #> T09 J6-A6   P08_17  AU33  IO_L17P_23
NET   'P8_18'            U1-AU32         #> F09      #> T09 J6-A7   P08_18  AU32  IO_L17N_23
NET   'P8_19'            U1-AU31         #> F09      #> T09 J6-A8   P08_19  AU31  IO_L13N_22
NET   'P8_20'            U1-AT30         #> F09      #> T09 J6-A9   P08_20  AT30  IO_L7P_22
NET   'P8_21'            U1-AT29         #> F09      #> T09 J6-A10  P08_21  AT29  IO_L5P_22
NET   'P8_22'            U1-AN28         #> F09      #> T09 J6-A11  P08_22  AN28  IO_L10P_MRCC_22
NET   'P8_23'            U1-AR27         #> F09      #> T09 J6-A12  P08_23  AR27  IO_L11P_SRCC_22
NET   'P8_24'            U1-AM26         #> F09      #> T09 J6-A13  P08_24  AM26  IO_L9P_MRCC_22

NET   'P9_0'             U1-AR33         #> F05      #> T05 J5-B23  P09_00  AR33  IO_L15P_23
NET   'P9_1'             U1-AT32         #> F05      #> T05 J5-B24  P09_01  AT32  IO_L15N_23
NET   'P9_2'             U1-AR34         #> F03      #> T03 J5-B25  P09_02  AR34  IO_L11P_SRCC_23
NET   'P9_3'             U1-AN33         #> F03      #> T03 J6-C1   P09_03  AN33  IO_L5P_23
NET   'P9_4'             U1-AP32         #> F03      #> T03 J6-B2   P09_04  AP32  IO_L13P_23
NET   'P9_5'             U1-AW31         #> F07 R2V5 #> T03 J6-C3   P09_05  AW31  IO_L2P_22
NET   'P9_6'             U1-BB31         #> F01 R2V7 #> T03 J6-B4   P09_06  BB31  IO_L16N_22
NET   'P9_7'             U1-BA30         #> F01 R2V6 #> T03 J6-C5   P09_07  BA30  IO_L8P_SRCC_22
NET   'P9_8'             U1-AN31         #> F03      #> T03 J6-B6   P09_08  AN31  IO_L7N_23
NET   'P9_9'             U1-AN30         #> F03      #> T03 J6-C7   P09_09  AN30  IO_L0N_23
NET   'P9_10'            U1-AL29         #> F03      #> T03 J6-B8   P09_10  AL29  IO_L2P_23
NET   'P9_11'            U1-AV29         #> F07 R3V4 #> T03 J6-C9   P09_11  AV29  IO_L15N_22
NET   'P9_12'            U1-BB28         #> F01 R3V6 #> T03 J6-B10  P09_12  BB28  IO_L18N_22
NET   'P9_13'            U1-AV28         #> F06 R3V2 #> T03 J6-C11  P09_13  AV28  IO_L17N_22
NET   'P9_14'            U1-AP28         #> F03      #> T03 J6-B12  P09_14  AP28  IO_L3N_22
NET   'P9_15'            U1-AL27         #> F03      #> T03 J6-C13  P09_15  AL27  IO_L6P_23
NET   'P9_16'            U1-AP33         #> F04      #> T04 J6-B14  P09_16  AP33  IO_L11N_SRCC_23
NET   'P9_17'            U1-AR32         #> F07 R2V4 #> T04 J6-C15  P09_17  AR32  IO_L13N_23
NET   'P9_18'            U1-AV30         #> F06 R2V2 #> T04 J6-B16  P09_18  AV30  IO_L0N_22
NET   'P9_19'            U1-AW30         #> F04      #> T04 J6-C17  P09_19  AW30  IO_L0P_22
NET   'P9_20'            U1-AP31         #> F04      #> T04 J6-B18  P09_20  AP31  IO_L7P_23
NET   'P9_21'            U1-AP30         #> F04      #> T04 J6-C19  P09_21  AP30  IO_L0P_23
NET   'P9_22'            U1-AN29         #> F04      #> T04 J7-B1   P09_22  AN29  IO_L4P_23
NET   'P9_23'            U1-AR28         #> F04      #> T04 J7-B2   P09_23  AR28  IO_L3P_22
NET   'P9_24'            U1-AJ25         #> F09      #> T09 J7-B3   P09_24  AJ25  IO_L9P_MRCC_23

NET   'P10_0'            U1-AY33         #> F07 R1V4 #> T05 J6-D6   P10_00  AY33  IO_L6N_22
NET   'P10_1'            U1-AV31         #> F06 R1V2 #> T05 J6-D7   P10_01  AV31  IO_L2N_22
NET   'P10_2'            U1-AT31         #> F05      #> T05 J6-D8   P10_02  AT31  IO_L13P_22
NET   'P10_3'            U1-AR30         #> F05      #> T05 J6-D9   P10_03  AR30  IO_L7N_22
NET   'P10_4'            U1-AR29         #> F05      #> T05 J6-C10  P10_04  AR29  IO_L5N_22
NET   'P10_5'            U1-AU29         #> F06 R2V3 #> T05 J6-D11  P10_05  AU29  IO_L15P_22
NET   'P10_6'            U1-AU28         #> F05      #> T05 J6-C12  P10_06  AU28  IO_L17P_22
NET   'P10_7'            U1-AP27         #> F05      #> T05 J6-D13  P10_07  AP27  IO_L1N_22
NET   'P10_8'            U1-AT27         #> F06 R3V1 #> T05 J6-C14  P10_08  AT27  IO_L11N_SRCC_22
NET   'P10_9'            U1-AU27         #> F06 R3V3 #> T05 J6-D15  P10_09  AU27  IO_L0N_21
NET   'P10_10'           U1-AW28         #> F07 R3V5 #> T05 J6-C16  P10_10  AW28  IO_L19P_22
NET   'P10_11'           U1-BB29         #> F01 R3V8 #> T05 J6-D17  P10_11  BB29  IO_L18P_22
NET   'P10_12'           U1-AV26         #> F05      #> T05 J6-C18  P10_12  AV26  IO_L16P_21
NET   'P10_13'           U1-AU26         #> F05      #> T05 J6-D19  P10_13  AU26  IO_L16N_21
NET   'P10_14'           U1-AL25         #> F02 R4V1 #> T05 J7-D1   P10_14  AL25  IO_L10N_MRCC_21
NET   'P10_15'           U1-AW25         #> F06 R4V3 #> T05 J7-C2   P10_15  AW25  IO_L18P_21
NET   'P10_16'           U1-AW27         #> F07 R4V5 #> T05 J7-D3   P10_16  AW27  IO_L2N_21
NET   'P10_17'           U1-BB26         #> F01 R4V8 #> T05 J7-C4   P10_17  BB26  IO_L6P_21
NET   'P10_18'           U1-AV25         #> F05      #> T05 J7-D5   P10_18  AV25  IO_L12N_VRP_21
NET   'P10_19'           U1-AU24         #> F05      #> T05 J7-C6   P10_19  AU24  IO_L8N_SRCC_21
NET   'P10_20'           U1-AR23         #> F05      #> T05 J7-D7   P10_20  AR23  IO_L11N_SRCC_21
NET   'P10_21'           U1-AV24         #> F07 R5V1 #> T05 J7-C8   P10_21  AV24  IO_L12P_VRN_21
NET   'P10_22'           U1-AU23         #> F06 R5V2 #> T05 J7-D9   P10_22  AU23  IO_L8P_SRCC_21
NET   'P10_23'           U1-BA25         #> F01 R5V8 #> T05 J7-C10  P10_23  BA25  IO_L14P_21
NET   'P10_24'           U1-AP25         #> F09      #> T09 J7-D11  P10_24  AP25  IO_L9P_MRCC_21

NET   'P11_0'            U1-AY27         #> F02      #> T02 J6-E14  P11_00  AY27  IO_L2P_21
NET   'P11_1'            U1-AN26         #> F02      #> T02 J6-E15  P11_01  AN26  IO_L1P_22
NET   'P11_2'            U1-AM24         #> F02      #> T02 J6-E16  P11_02  AM24  IO_L13P_21
NET   'P11_3'            U1-AK23         #> F02      #> T02 J6-E17  P11_03  AK23  IO_L5N_21
NET   'P11_4'            U1-AM23         #> F02      #> T02 J6-E18  P11_04  AM23  IO_L7P_21
NET   'P11_5'            U1-AK22         #> F02      #> T02 J6-E19  P11_05  AK22  IO_L1P_21
NET   'P11_6'            U1-AJ22         #> F02      #> T02 J7-E1   P11_06  AJ22  IO_L1N_21
NET   'P11_7'            U1-AM27         #> F04      #> T04 J7-E2   P11_07  AM27  IO_L10N_MRCC_22
NET   'P11_8'            U1-AT26         #> F04      #> T04 J7-E3   P11_08  AT26  IO_L0P_21
NET   'P11_9'            U1-AW26         #> F06 R4V2 #> T04 J7-E4   P11_09  AW26  IO_L18N_21
NET   'P11_10'           U1-BA26         #> F01 R4V6 #> T04 J7-E5   P11_10  BA26  IO_L4P_21
NET   'P11_11'           U1-AY28         #> F07 R4V4 #> T04 J7-E6   P11_11  AY28  IO_L19N_22
NET   'P11_12'           U1-AR25         #> F04      #> T04 J7-E7   P11_12  AR25  IO_L19N_21
NET   'P11_13'           U1-AT25         #> F04      #> T04 J7-E8   P11_13  AT25  IO_L19P_21
NET   'P11_14'           U1-AT24         #> F04      #> T04 J7-E9   P11_14  AT24  IO_L17N_21
NET   'P11_15'           U1-AP23         #> F04      #> T04 J7-E10  P11_15  AP23  IO_L11P_SRCC_21
NET   'P11_16'           U1-BB27         #> F01 R4V7 #> T03 J7-E11  P11_16  BB27  IO_L6N_21
NET   'P11_17'           U1-AP26         #> F03      #> T03 J7-E12  P11_17  AP26  IO_L9N_MRCC_21
NET   'P11_18'           U1-AN25         #> F03      #> T03 J7-E13  P11_18  AN25  IO_L15N_21
NET   'P11_19'           U1-AR24         #> F03      #> T03 J7-E14  P11_19  AR24  IO_L17P_21
NET   'P11_20'           U1-AN24         #> F03      #> T03 J7-E15  P11_20  AN24  IO_L15P_21
NET   'P11_21'           U1-AN23         #> F03      #> T03 J7-E16  P11_21  AN23  IO_L7N_21
NET   'P11_22'           U1-AM22         #> F03      #> T03 J7-E17  P11_22  AM22  IO_L3P_21
NET   'P11_23'           U1-AL22         #> F03      #> T03 J7-E18  P11_23  AL22  IO_L3N_21
NET   'P11_24'           U1-AK24         #> F09      #> T09 J7-E19  P11_24  AK24  IO_L10P_MRCC_21

NET   'P8TO11_DCI_P'     U1-AJ28         #> T08                 AJ28  IO_L12N_VRP_23
NET   'P8TO11_DCI_N'     U1-AH28         #> T08                 AH28  IO_L12P_VRN_23

NET   'VREF_P'           U1-BA27         #> T08                 BA27  IO_L4N_VREF_21
NET   'VREF_P'           U1-AY25         #> T08                 AY25  IO_L14N_VREF_21
NET   'VREF_P'           U1-AW32         #> T08                 AW32  IO_L4N_VREF_22
NET   'VREF_P'           U1-BB32         #> T08                 BB32  IO_L14N_VREF_22
NET   'VREF_P'           U1-AM29         #> T08                 AM29  IO_L4N_VREF_23
NET   'VREF_P'           U1-AG27         #> T08                 AG27  IO_L14N_VREF_23


#########################################################################################
#
# The Processor Inputs in P12-P13-P14-P15 use IO resources from banks 32-33-34
# P12_24 uses a regional clock in IO bank 32 on trace layer  9
# P13_24 uses a regional clock in IO bank 33 on trace layer  9
# P14_24 uses a regional clock in IO bank 34 on trace layer  9
# P15_24 uses a regional clock in IO bank 34 on trace layer  9
# The DCI master for this group is IO bank 34
#

NET   'P12_0'            U1-BB22         #> F01 R1V7 #> T02 J7-A10  P12_00  BB22  IO_L18P_32
NET   'P12_1'            U1-BA24         #> F01 R1V6 #> T02 J7-A11  P12_01  BA24  IO_L0N_32
NET   'P12_2'            U1-BA22         #> F01 R1V5 #> T02 J7-A12  P12_02  BA22  IO_L14P_32
NET   'P12_3'            U1-BB23         #> F01 R1V3 #> T02 J7-A13  P12_03  BB23  IO_L6N_32
NET   'P12_4'            U1-AL21         #> F02      #> T02 J7-A14  P12_04  AL21  IO_L5N_32
NET   'P12_5'            U1-AM21         #> F02      #> T02 J7-A15  P12_05  AM21  IO_L11P_SRCC_32
NET   'P12_6'            U1-AR20         #> F02      #> T02 J7-A16  P12_06  AR20  IO_L3N_32
NET   'P12_7'            U1-AY20         #> F02      #> T02 J7-A17  P12_07  AY20  IO_L8P_SRCC_32
NET   'P12_8'            U1-AP20         #> F02      #> T02 J7-A18  P12_08  AP20  IO_L7N_32
NET   'P12_9'            U1-AY19         #> F02      #> T02 J7-A19  P12_09  AY19  IO_L17N_33
NET   'P12_10'           U1-AV18         #> F09 R3V8 #> T02 J8-A1   P12_10  AV18  IO_L13P_33
NET   'P12_11'           U1-AK19         #> F02      #> T02 J8-A2   P12_11  AK19  IO_L10N_MRCC_32
NET   'P12_12'           U1-AK18         #> F02      #> T02 J8-A3   P12_12  AK18  IO_L18P_33
NET   'P12_13'           U1-AK17         #> F02      #> T02 J8-A4   P12_13  AK17  IO_L6N_33
NET   'P12_14'           U1-AM17         #> F04      #> T04 J8-A5   P12_14  AM17  IO_L14P_33
NET   'P12_15'           U1-AN16         #> F04      #> T04 J8-A6   P12_15  AN16  IO_L8P_SRCC_33
NET   'P12_16'           U1-AN15         #> F04      #> T04 J8-A7   P12_16  AN15  IO_L2P_33
NET   'P12_17'           U1-AM14         #> F04      #> T04 J8-A8   P12_17  AM14  IO_L2N_33
NET   'P12_18'           U1-AW23         #> F09      #> T09 J8-A9   P12_18  AW23  IO_L4P_32
NET   'P12_19'           U1-AY22         #> F09      #> T09 J8-A10  P12_19  AY22  IO_L16N_32
NET   'P12_20'           U1-AW22         #> F09      #> T09 J8-A11  P12_20  AW22  IO_L16P_32
NET   'P12_21'           U1-AV23         #> F09      #> T09 J8-A12  P12_21  AV23  IO_L2P_32
NET   'P12_22'           U1-AW21         #> F09      #> T09 J8-A13  P12_22  AW21  IO_L12N_VRP_32
NET   'P12_23'           U1-AW20         #> F09      #> T09 J8-A14  P12_23  AW20  IO_L13N_32
NET   'P12_24'           U1-AK20         #> F09      #> T09 J8-A15  P12_24  AK20  IO_L10P_MRCC_32

NET   'P13_0'            U1-AR22         #> F04      #> T04 J7-B10  P13_00  AR22  IO_L17N_32
NET   'P13_1'            U1-AP22         #> F04      #> T04 J7-C11  P13_01  AP22  IO_L19N_32
NET   'P13_2'            U1-AT21         #> F04      #> T04 J7-B12  P13_02  AT21  IO_L15N_32
NET   'P13_3'            U1-BB24         #> F01 R1V4 #> T05 J7-C13  P13_03  BB24  IO_L6P_32
NET   'P13_4'            U1-AU22         #> F05      #> T05 J7-B14  P13_04  AU22  IO_L2N_32
NET   'P13_5'            U1-AT22         #> F05      #> T05 J7-C15  P13_05  AT22  IO_L17P_32
NET   'P13_6'            U1-AU21         #> F05      #> T05 J7-B16  P13_06  AU21  IO_L15P_32
NET   'P13_7'            U1-AV21         #> F05      #> T05 J7-C17  P13_07  AV21  IO_L12P_VRN_32
NET   'P13_8'            U1-AV20         #> F05      #> T05 J7-B18  P13_08  AV20  IO_L13P_32
NET   'P13_9'            U1-AR19         #> F05      #> T05 J7-C19  P13_09  AR19  IO_L11N_SRCC_33
NET   'P13_10'           U1-AN21         #> F03      #> T03 J8-B1   P13_10  AN21  IO_L11N_SRCC_32
NET   'P13_11'           U1-AP21         #> F03      #> T03 J8-C2   P13_11  AP21  IO_L19P_32
NET   'P13_12'           U1-BB21         #> F01 R2V7 #> T03 J8-B3   P13_12  BB21  IO_L18N_32
NET   'P13_13'           U1-BB19         #> F01 R2V8 #> T03 J8-C4   P13_13  BB19  IO_L15N_33
NET   'P13_14'           U1-BA20         #> F01 R2V6 #> T03 J8-B5   P13_14  BA20  IO_L8N_SRCC_32
NET   'P13_15'           U1-AT20         #> F03      #> T03 J8-C6   P13_15  AT20  IO_L3P_32
NET   'P13_16'           U1-AM19         #> F03      #> T03 J8-B7   P13_16  AM19  IO_L1N_32
NET   'P13_17'           U1-AL19         #> F03      #> T03 J8-C8   P13_17  AL19  IO_L1P_32
NET   'P13_18'           U1-AN18         #> F03      #> T03 J8-B9   P13_18  AN18  IO_L16P_33
NET   'P13_19'           U1-BA19         #> F01 R3V7 #> T03 J8-C10  P13_19  BA19  IO_L17P_33
NET   'P13_20'           U1-AT19         #> F09 R3V6 #> T03 J8-B11  P13_20  AT19  IO_L19N_33
NET   'P13_21'           U1-AL17         #> F03      #> T03 J8-C12  P13_21  AL17  IO_L4P_33
NET   'P13_22'           U1-AM16         #> F03      #> T03 J8-B13  P13_22  AM16  IO_L8N_SRCC_33
NET   'P13_23'           U1-AP16         #> F09 R4V6 #> T03 J8-C14  P13_23  AP16  IO_L12P_VRN_33
NET   'P13_24'           U1-AK15         #> F09      #> T09 J8-B15  P13_24  AK15  IO_L9P_MRCC_33

NET   'P14_0'            U1-AU19         #> F06 R2V2 #> T04 J7-C12  P14_00  AU19  IO_L19P_33
NET   'P14_1'            U1-AY17         #> F06 R2V4 #> T04 J7-D13  P14_01  AY17  IO_L18P_A17_34
NET   'P14_2'            U1-AW18         #> F07 R2V5 #> T04 J7-C14  P14_02  AW18  IO_L7N_33
NET   'P14_3'            U1-AY18         #> F07 R2V3 #> T04 J7-D15  P14_03  AY18  IO_L7P_33
NET   'P14_4'            U1-AV19         #> F07 R2V1 #> T04 J7-C16  P14_04  AV19  IO_L13N_33
NET   'P14_5'            U1-AN19         #> F04      #> T04 J7-D17  P14_05  AN19  IO_L16N_33
NET   'P14_6'            U1-BB18         #> F04      #> T04 J7-C18  P14_06  BB18  IO_L15P_33
NET   'P14_7'            U1-AW16         #> F01 R3V5 #> T04 J7-D19  P14_07  AW16  IO_L8N_SRCC_34
NET   'P14_8'            U1-AU17         #> F06 R3V3 #> T04 J8-C1   P14_08  AU17  IO_L3N_33
NET   'P14_9'            U1-AR18         #> F06 R3V1 #> T04 J8-D2   P14_09  AR18  IO_L1N_33
NET   'P14_10'           U1-AP18         #> F04      #> T04 J8-C3   P14_10  AP18  IO_L11P_SRCC_33
NET   'P14_11'           U1-AJ16         #> F02      #> T02 J8-D4   P14_11  AJ16  IO_L10P_MRCC_33
NET   'P14_12'           U1-AV16         #> F06 R4V3 #> T02 J8-C5   P14_12  AV16  IO_L8P_SRCC_34
NET   'P14_13'           U1-AT17         #> F09 R4V8 #> T02 J8-D6   P14_13  AT17  IO_L5P_33
NET   'P14_14'           U1-AY15         #> F02      #> T02 J8-C7   P14_14  AY15  IO_L6P_A07_D23_34
NET   'P14_15'           U1-AL15         #> F02      #> T02 J8-D8   P14_15  AL15  IO_L0P_33
NET   'P14_16'           U1-AK14         #> F02      #> T02 J8-C9   P14_16  AK14  IO_L9N_MRCC_33
NET   'P14_17'           U1-AN13         #> F02      #> T02 J8-D10  P14_17  AN13  IO_L10N_MRCC_34
NET   'P14_18'           U1-AV13         #> F06 R5V2 #> T02 J8-C11  P14_18  AV13  IO_L11P_SRCC_34
NET   'P14_19'           U1-BA16         #> F01 R5V8 #> T02 J8-D12  P14_19  BA16  IO_L14P_A25_34
NET   'P14_20'           U1-BB14         #> F01 R5V6 #> T02 J8-C13  P14_20  BB14  IO_L12N_A02_D18_34
NET   'P14_21'           U1-BB13         #> F01 R5V4 #> T02 J8-D14  P14_21  BB13  IO_L12P_A03_D19_34
NET   'P14_22'           U1-AW13         #> F07 R5V1 #> T02 J8-C15  P14_22  AW13  IO_L13N_A00_D16_34
NET   'P14_23'           U1-AM12         #> F02      #> T02 J8-D16  P14_23  AM12  IO_L9N_MRCC_34
NET   'P14_24'           U1-AN14         #> F09      #> T09 J8-C17  P14_24  AN14  IO_L10P_MRCC_34

NET   'P15_0'            U1-AU18         #> F05      #> T05 J8-E1   P15_00  AU18  IO_L5N_33
NET   'P15_1'            U1-AW17         #> F07 R3V2 #> T05 J8-E2   P15_01  AW17  IO_L18N_A16_34
NET   'P15_2'            U1-AW15         #> F07 R3V4 #> T05 J8-E3   P15_02  AW15  IO_L6N_A06_D22_34
NET   'P15_3'            U1-AP17         #> F05      #> T05 J8-E4   P15_03  AP17  IO_L12N_VRP_33
NET   'P15_4'            U1-AR17         #> F05      #> T05 J8-E5   P15_04  AR17  IO_L1P_33
NET   'P15_5'            U1-AT16         #> F05      #> T05 J8-E6   P15_05  AT16  IO_L3P_33
NET   'P15_6'            U1-AV15         #> F07 R4V1 #> T05 J8-E7   P15_06  AV15  IO_L4P_A11_D27_34
NET   'P15_7'            U1-AT14         #> F07 R4V4 #> T05 J8-E8   P15_07  AT14  IO_L15N_A22_34
NET   'P15_8'            U1-BB17         #> F01 R4V7 #> T05 J8-E9   P15_08  BB17  IO_L16N_A20_34
NET   'P15_9'            U1-BB16         #> F01 R4V5 #> T05 J8-E10  P15_09  BB16  IO_L16P_A21_34
NET   'P15_10'           U1-AV14         #> F06 R4V2 #> T05 J8-E11  P15_10  AV14  IO_L11N_SRCC_34
NET   'P15_11'           U1-AR15         #> F05      #> T05 J8-E12  P15_11  AR15  IO_L17N_A18_34
NET   'P15_12'           U1-AR14         #> F05      #> T05 J8-E13  P15_12  AR14  IO_L15P_A23_34
NET   'P15_13'           U1-BA15         #> F01 R5V7 #> T05 J8-E14  P15_13  BA15  IO_L2P_A15_D31_34
NET   'P15_14'           U1-BA14         #> F01 R5V5 #> T05 J8-E15  P15_14  BA14  IO_L2N_A14_D30_34
NET   'P15_15'           U1-AU13         #> F05      #> T05 J8-E16  P15_15  AU13  IO_L7N_A04_D20_34
NET   'P15_16'           U1-AU12         #> F05      #> T05 J8-E17  P15_16  AU12  IO_L7P_A05_D21_34
NET   'P15_17'           U1-AR13         #> F04      #> T04 J8-E18  P15_17  AR13  IO_L5N_A08_D24_34
NET   'P15_18'           U1-AT12         #> F04      #> T04 J8-E19  P15_18  AT12  IO_L3N_A12_D28_34
NET   'P15_19'           U1-AP15         #> F03      #> T03 J8-E20  P15_19  AP15  IO_L17P_A19_34
NET   'P15_20'           U1-AL14         #> F03      #> T03 J8-E21  P15_20  AL14  IO_L0N_33
NET   'P15_21'           U1-AP13         #> F03      #> T03 J8-E22  P15_21  AP13  IO_L5P_A09_D25_34
NET   'P15_22'           U1-AR12         #> F03      #> T03 J8-E23  P15_22  AR12  IO_L3P_A13_D29_34
NET   'P15_23'           U1-AW12         #> F09 R5V3 #> T03 J8-E24  P15_23  AW12  IO_L13P_A01_D17_34
NET   'P15_24'           U1-AM13         #> F09      #> T09 J8-E25  P15_24  AM13  IO_L9P_MRCC_34

NET   'P12TO15_DCI_P'    U1-AU16         #> T08                 AU16  IO_L19N_VRP_34
NET   'P12TO15_DCI_N'    U1-AT15         #> T08                 AT15  IO_L19P_VRN_34

NET   'VREF_P'           U1-AY23         #> T08                 AY23  IO_L4N_VREF_32
NET   'VREF_P'           U1-BA21         #> T08                 BA21  IO_L14N_VREF_32
NET   'VREF_P'           U1-AL16         #> T08                 AL16  IO_L4N_VREF_33
NET   'VREF_P'           U1-AM18         #> T08                 AM18  IO_L14N_VREF_33
NET   'VREF_P'           U1-AU14         #> T08                 AU14  IO_L4N_VREF_A10_D26_34
NET   'VREF_P'           U1-BA17         #> T08                 BA17  IO_L14N_VREF_A24_34

############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals used for the LVDS cable IO
#             -=============----------------------------------------------
#
#
#     Original Rev. 18-Nov-2011
#              Rev. 22-Jun-2012 comment all out because processor inputs have moved to banks 22&23
#              Rev. 31-Aug-2012 Now on IO banks 15,16,17 and layer assigned
#              Rev: 07-Sep-2012 Add header comments
#              Rev: 19-Nov-2012 Re-do breakout strategy which frees up layers 6 and 7 now unused
#                               Skip the 8 System Monitor pin pairs from IO Bank 15
#              Rev. 30-Nov-2012 Studying the set of unused pins generated 2 allocation improvements here
#  Most Recent Rev: 03-Jun-2013 swap pin used for cable IO signal 83 (AE35 is now used; AF41 now unused)
#
#  Signal Nets referenced in this file:
#  ------------------------------------
#
#  'D_CBL_zz_B' are the cable IO signals available to the Base FPGA with zz=00 to 83.
#  The "_B" postfix is used to indicate that these signals are inverted with respect
#  to the LVDS signal polarity on the data cables.
#
#  There are up to 3 cables used for a given CMX card.
#  A Crate CMX card uses one cable as output only,
#  while a System CMX card receives 2 or 3 cables as input.
#
#  A Rear Transition Module (RTM) card provides the interface to the three 34-signal
#  LVDS connectors where the IO cables can be connected.
#  Only 27 signals from each connector are routed on the current RTM cards.
#  zz=0  to 26 correspond to the first cable,
#  zz=27 to 53 correspond to the second cable, and
#  zz=54 to 80 correspond to the third cable.
#
#  Additionally, 3 more differential pairs of signals are labelled on the backplane
#  but are not routed on the RTM: zz= 31 to 83
#  The CMX card will route the currently unused M_81, M_82, and M_83 signals
#  to become usable as cable IO signals.  The sets of cable signals thus are:
#  Cable #1 consists of signals M_00 to M_26 plus M_81
#  Cable #2 consists of signals M_27 to M_53 plus M_82
#  Cable #3 consists of signals M_54 to M_80 plus M_83
#  The CMX card could thus be able to use 28 LVDS signals per cable while the CMM was only able
#  to use 27 signals.  Using 28 signals would however require a new version of the RTM card.
#  This 28th signal can be left unused and set to a fixed state by the FPGA of the source Crate CMX
#  while the LVDS transceiver of the receiving System CMX will default to a defined value
#  for all non-connected inputs.
#
#  The path to the LVDS transceivers D_CBL_zz signals are in the file backplane_cable_tx_n2p.txt
#  in the Net_Lists/Components_Backplane_Tx directory
#
#   Note: Trace layer information is appended as comments below.
#   -----
#
#     NET   'D_CBL_00'         U1-<IO_L11P_SRCC_23>                       #> T02 00   L12
#
#                                                                         ^   ^  ^    ^
#                                                                         |   |  |    |
#   Tailored comment flag to help with string searches -------------------+   |  |    |
#                                                                             |  |    |
#   Target Trace Layer number to use for this net ----------------------------+  |    |
#   T01 is top layer, T02 the first inner layer, etc                             |    |
#                                                                                |    |
#   Signal number is repeated to help manual entry of Pin Number ----------------+    |
#                                                                                     |
#   Target Pin Number read from paper drawing ----------------------------------------+
#   and cross-checked after Match_Res2Pin
#
############################################################################################


#
#  IO Cable #1
#
#  This group uses signals from IO banks 16 and 17 and a regional clock from bank 17

NET   'D_CBL_00_B'       U1-L39          #> T02 00   L39  IO_L1P_17
NET   'D_CBL_01_B'       U1-L42          #> T02 01   L42  IO_L3N_17
NET   'D_CBL_02_B'       U1-M36          #> T02 02   M36  IO_L0P_17
NET   'D_CBL_03_B'       U1-M42          #> T02 03   M42  IO_L7N_17
NET   'D_CBL_04_B'       U1-N36          #> T02 04   N36  IO_L6P_17
NET   'D_CBL_05_B'       U1-P37          #> T02 05   P37  IO_L6N_17
NET   'D_CBL_06_B'       U1-P42          #> T02 06   P42  IO_L15P_17
NET   'D_CBL_07_B'       U1-R35          #> T02 07   R35  IO_L14P_17
NET   'D_CBL_08_B'       U1-R42          #> T02 08   R42  IO_L15N_17
NET   'D_CBL_09_B'       U1-T35          #> T02 09   T35  IO_L18N_17
NET   'D_CBL_10_B'       U1-T42          #> T02 10   T42  IO_L19N_17
NET   'D_CBL_11_B'       U1-U36          #> T02 11   U36  IO_L16P_17
NET   'D_CBL_12_B'       U1-U42          #> T02 12   U42  IO_L3P_16
NET   'D_CBL_13_B'       U1-V36          #> T02 13   V36  IO_L2N_16
NET   'D_CBL_14_B'       U1-W35          #> T02 14   W35  IO_L6P_16
NET   'D_CBL_15_B'       U1-W42          #> T02 15   W42  IO_L15P_16
NET   'D_CBL_16_B'       U1-Y34          #> T02 16   Y34  IO_L14N_VREF_16
NET   'D_CBL_17_B'       U1-Y42          #> T02 17   Y42  IO_L15N_16
NET   'D_CBL_18_B'       U1-Y35          #> T02 18   Y35  IO_L8N_SRCC_16
NET   'D_CBL_19_B'       U1-AA34         #> T02 19  AA34  IO_L14P_16
NET   'D_CBL_20_B'       U1-AA32         #> T02 20  AA32  IO_L12P_VRN_16
NET   'D_CBL_21_B'       U1-L40          #> T03 21   L40  IO_L1N_17
NET   'D_CBL_22_B'       U1-M37          #> T03 22   M37  IO_L0N_17
NET   'D_CBL_23_B'       U1-M41          #> T09 23   M41  IO_L7P_17
NET   'D_CBL_24_B'       U1-N41          #> T09 24   N41  IO_L11N_SRCC_17
NET   'D_CBL_25_B'       U1-P36          # Clock  #> T09 25   P36  IO_L9P_MRCC_17
NET   'D_CBL_26_B'       U1-R40          # Parity #> T09 26   R40  IO_L17P_17

NET   'D_CBL_81_B'       U1-N38          #> T03 81   N38  IO_L5P_17


#
#  IO Cable #2
#
#  This group uses signals from IO banks 16 and 17 and a regional clock from bank 17

NET   'D_CBL_27_B'       U1-P38          #> T03 27   P38  IO_L8N_SRCC_17
NET   'D_CBL_28_B'       U1-R37          #> T03 28   R37  IO_L12P_VRN_17
NET   'D_CBL_29_B'       U1-T36          #> T03 29   T36  IO_L16N_17
NET   'D_CBL_30_B'       U1-U37          #> T03 30   U37  IO_L1P_16
NET   'D_CBL_31_B'       U1-V38          #> T03 31   V38  IO_L7P_16
NET   'D_CBL_32_B'       U1-W36          #> T03 32   W36  IO_L2P_16
NET   'D_CBL_33_B'       U1-W37          #> T03 33   W37  IO_L0P_16
NET   'D_CBL_34_B'       U1-Y37          #> T03 34   Y37  IO_L0N_16
NET   'D_CBL_35_B'       U1-AA36         #> T03 35  AA36  IO_L4P_16
NET   'D_CBL_36_B'       U1-AA35         #> T03 36  AA35  IO_L8P_SRCC_16
NET   'D_CBL_37_B'       U1-L41          #> T04 37   L41  IO_L3P_17
NET   'D_CBL_38_B'       U1-M38          #> T04 38   M38  IO_L2P_17
NET   'D_CBL_39_B'       U1-N39          #> T04 39   N39  IO_L5N_17
NET   'D_CBL_40_B'       U1-P40          #> T04 40   P40  IO_L13P_17
NET   'D_CBL_41_B'       U1-R38          #> T04 41   R38  IO_L10N_MRCC_17
NET   'D_CBL_42_B'       U1-T37          #> T04 42   T37  IO_L12N_VRP_17
NET   'D_CBL_43_B'       U1-U38          #> T04 43   U38  IO_L1N_16
NET   'D_CBL_44_B'       U1-V39          #> T04 44   V39  IO_L5N_16
NET   'D_CBL_45_B'       U1-V40          #> T04 45   V40  IO_L11P_SRCC_16
NET   'D_CBL_46_B'       U1-W38          #> T04 46   W38  IO_L7N_16
NET   'D_CBL_47_B'       U1-Y38          #> T04 47   Y38  IO_L19P_16
NET   'D_CBL_48_B'       U1-T39          # Clock  #> T09 48   T39  IO_L10P_MRCC_17
NET   'D_CBL_49_B'       U1-T41          # Parity #> T09 49   T41  IO_L19P_17
NET   'D_CBL_50_B'       U1-M39          #> T05 50   M39  IO_L2N_17
NET   'D_CBL_51_B'       U1-N40          #> T05 51   N40  IO_L11P_SRCC_17
NET   'D_CBL_52_B'       U1-P41          #> T05 52   P41  IO_L13N_17
NET   'D_CBL_53_B'       U1-R39          #> T05 53   R39  IO_L8P_SRCC_17

NET   'D_CBL_82_B'       U1-T40          #> T05 82   T40  IO_L17N_17


#
#  IO Cable #3
#
#  This group uses signals from IO banks 15 and 16 and a regional clock from bank 16

NET   'D_CBL_54_B'       U1-AC36         #> T02 54  AC36  IO_L8P_SRCC_15
NET   'D_CBL_55_B'       U1-AC35         #> T02 55  AC35  IO_L16P_VRN_15
NET   'D_CBL_56_B'       U1-AE37         #> T02 56  AE37  IO_L10P_MRCC_15
NET   'D_CBL_57_B'       U1-AF42         #> T02 57  AF42  IO_L17P_15
NET   'D_CBL_58_B'       U1-AB34         #> T03 58  AB34  IO_L16N_VRP_15
NET   'D_CBL_59_B'       U1-AB36         #> T03 59  AB36  IO_L8N_SRCC_15
NET   'D_CBL_60_B'       U1-AC38         #> T03 60  AC38  IO_L4P_15
NET   'D_CBL_61_B'       U1-AD37         #> T03 61  AD37  IO_L10N_MRCC_15
NET   'D_CBL_62_B'       U1-AD36         #> T03 62  AD36  IO_L14P_15
NET   'D_CBL_63_B'       U1-AE39         #> T03 63  AE39  IO_L19N_15
NET   'D_CBL_64_B'       U1-AA39         #> T04 64  AA39  IO_L19N_16
NET   'D_CBL_65_B'       U1-AA37         #> T04 65  AA37  IO_L4N_VREF_16
NET   'D_CBL_66_B'       U1-AB37         #> T04 66  AB37  IO_L1P_15
NET   'D_CBL_67_B'       U1-AB38         #> T04 67  AB38  IO_L1N_15
NET   'D_CBL_68_B'       U1-AC39         #> T04 68  AC39  IO_L4N_VREF_15
NET   'D_CBL_69_B'       U1-U39          #> T05 69   U39  IO_L5P_16
NET   'D_CBL_70_B'       U1-U41          #> T05 70   U41  IO_L3N_16
NET   'D_CBL_71_B'       U1-V41          #> T05 71   V41  IO_L13P_16
NET   'D_CBL_72_B'       U1-W40          #> T05 72   W40  IO_L11N_SRCC_16
NET   'D_CBL_73_B'       U1-Y39          #> T05 73   Y39  IO_L17N_16
NET   'D_CBL_74_B'       U1-AC41         #> T05 74  AC41  IO_L11P_SRCC_15
NET   'D_CBL_75_B'       U1-AD41         #> T05 75  AD41  IO_L11N_SRCC_15
NET   'D_CBL_76_B'       U1-AE40         #> T05 76  AE40  IO_L19P_15
NET   'D_CBL_77_B'       U1-V35          #> T09 77   V35  IO_L6N_16
NET   'D_CBL_78_B'       U1-W32          # Clock  #> T09 78   W32  IO_L9P_MRCC_16
NET   'D_CBL_79_B'       U1-W41          # Parity #> T09 79   W41  IO_L13N_16
NET   'D_CBL_80_B'       U1-Y40          #> T09 80   Y40  IO_L17P_16

NET   'D_CBL_83_B'       U1-AE35         #> T09 83  AE35  IO_L0N_15
############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals used for Front Panel CTP Output
#             -=============---------------------------------------------
#
#
#     Original Rev. 15-Nov-2011 assign to banks 33 & 34
#              Rev. 22-Jun-2012 comment everything out as 33&34 taken by Processor inputs
#              Rev. 10-Sep-2012 Reassign to IO Banks 12 & part of 13
#              Rev: 19-Nov-2012 Re-do breakout strategy
#                               and plan for "a matrix of vias" near FPGA South East corner
#                               The long haul is temporarily recoreded as layer 1 (T01), to be determined.
#                               Rename nets to make Base Function a prefix (DOUT_CTP_xx_BF -> BF_DOUT_CTP_xx)
#              Rev: 11-Dec-2012 File name changed for uniformity and consistency between Base and TP files
#              Rev: 14-Jan-2013 Edit header comments
#              Rev: 05-Apr-2013 Tentatively flag these signals to belong to layer 7
#              Rev: 20-May-2013 Swap BF_DOUT_CTP_51 and BF_DOUT_CTP_57 to solve problem with backplane IO
#  Most Recent Rev: 06-Jun-2013 Update position of signal #65 and rotate position of upper half signals
#                               after final location of 5th translator
#
#
#  Signal Nets referenced in this file:
#  ------------------------------------
#
#  There are 0, 1 or 2 CTP cables connected to a given CMX card.
#  A Crate CMX with only Base CMX  functionality does not send any data to the CTP
#  A System CMX in a CPM crate sends information to the CTP over one cable
#  A System CMX in a JEM crate sends information to the CTP over two cables
#  A Crate CMX with TP functionality would probably send information to the CTP over two cables
#
#  'BF_DOUT_CTP_xx' are the CTP output signals from the Base FPGA with xx=00 to 65.
#  Each CTP output cable carries 33 LVDS signals consisting of 31 data bits, one clock
#  and one parity bit.
#  xx=0  to 30 carry  data bits on cable #1
#  xx=31       carry  the clock on cable #1
#  xx=64       carry the parity on cable #1
#  xx=32 to 62 carry  data bits on cable #2
#  xx=63       carry  the clock on cable #2
#  xx=65       carry the parity on cable #2
#  Note that regional clock signals are assigned to CTP output signals # 31 and 63
#  for flexibility, so that the CTP output cables could be used as inputs instead.
#
#  These CTP output signals are assigned here to resources in IO banks 12 and 13.
#  Only part of IO bank 13 is used here, namely only the pins in rows AN to BB
#  while 11 io pins in rows AK, AL and AM are used for the on-card bus.
#
#  The rest of the circuitry used to drive the LVDS cables is in the file front_panel_ctp_driver_n2p.txt
#  in the Net_Lists/Front_Panel_CTP_IO_Nets directory
#
#
#   Note: Trace layer information is appended as comments below.
#   -----
#
#     NET   'BF_DOUT_CTP_00'   U1-<IO_L8P_SRCC_12>                      #> F02 #> T01 00   AW37
#
#                                                                       ^   ^      ^  ^    ^
#                                                                       |   |      |  |    |
#   Tailored comment flag to help with string searches -----------------+   |      |  |    |
#                                                                           |      |  |    |
#   Target Trace Layer number to use for this net --------------------------+      |  |    |
#   as it exits the FPGA (to reach a via in the via matrix)                        |  |    |
#   F01 is top layer, F02 the first inner layer, etc                               |  |    |
#                                                                                  |  |    |
#   Target Trace Layer number to use for this net ---------------------------------+  |    |
#   as it reaches the level translator near the front of the card                     |    |
#   T01 is top layer, T02 the first inner layer, etc                                  |    |
#                                                                                     |    |
#   Signal number is repeated to help manual entry of Pin Number ---------------------+    |
#                                                                                          |
#   Target Pin Number read from paper study -----------------------------------------------+
#   and cross-checked after Match_Res2Pin
#
############################################################################################

#
#  CTP Cable #1
#
#  This group uses signals from IO banks 12 and 13 and a regional clock from bank 13

NET   'BF_DOUT_CTP_00'   U1-AW37         #> F02 #> T07 00   AW37  IO_L8P_SRCC_12
NET   'BF_DOUT_CTP_01'   U1-AU42         #> F02 #> T07 01   AU42  IO_L5N_13
NET   'BF_DOUT_CTP_02'   U1-AT36         #> F02 #> T07 02   AT36  IO_L6N_12
NET   'BF_DOUT_CTP_03'   U1-AR37         #> F03 #> T07 03   AR37  IO_L2N_12
NET   'BF_DOUT_CTP_04'   U1-AY35         #> F05 #> T07 04   AY35  IO_L17N_12
NET   'BF_DOUT_CTP_05'   U1-AP36         #> F09 #> T07 05   AP36  IO_L10P_MRCC_12
NET   'BF_DOUT_CTP_06'   U1-BB38         #> F02 #> T07 06   BB38  IO_L7N_12
NET   'BF_DOUT_CTP_07'   U1-AV38         #> F02 #> T07 07   AV38  IO_L1N_12
NET   'BF_DOUT_CTP_08'   U1-AU37         #> F02 #> T07 08   AU37  IO_L4P_12
NET   'BF_DOUT_CTP_09'   U1-AT37         #> F03 #> T07 09   AT37  IO_L0P_12
NET   'BF_DOUT_CTP_10'   U1-BA36         #> F05 #> T07 10   BA36  IO_L13N_12
NET   'BF_DOUT_CTP_11'   U1-AR40         #> F09 #> T07 11   AR40  IO_L8P_SRCC_13
NET   'BF_DOUT_CTP_12'   U1-AW38         #> F02 #> T07 12   AW38  IO_L8N_SRCC_12
NET   'BF_DOUT_CTP_13'   U1-AW40         #> F02 #> T07 13   AW40  IO_L19N_13
NET   'BF_DOUT_CTP_14'   U1-AW42         #> F02 #> T07 14   AW42  IO_L7P_13
NET   'BF_DOUT_CTP_15'   U1-AU38         #> F03 #> T07 15   AU38  IO_L4N_VREF_12
NET   'BF_DOUT_CTP_16'   U1-AT41         #> F05 #> T07 16   AT41  IO_L8N_SRCC_13
NET   'BF_DOUT_CTP_17'   U1-AY37         #> F03 #> T07 17   AY37  IO_L5N_12
NET   'BF_DOUT_CTP_18'   U1-BB39         #> F02 #> T07 18   BB39  IO_L7P_12
NET   'BF_DOUT_CTP_19'   U1-AY40         #> F02 #> T07 19   AY40  IO_L17N_13
NET   'BF_DOUT_CTP_20'   U1-AY42         #> F02 #> T07 20   AY42  IO_L13P_13
NET   'BF_DOUT_CTP_21'   U1-AV39         #> F03 #> T07 21   AV39  IO_L1P_12
NET   'BF_DOUT_CTP_22'   U1-AU41         #> F05 #> T07 22   AU41  IO_L11N_SRCC_13
NET   'BF_DOUT_CTP_23'   U1-AY38         #> F03 #> T07 23   AY38  IO_L5P_12
NET   'BF_DOUT_CTP_24'   U1-AY39         #> F02 #> T07 24   AY39  IO_L3P_12
NET   'BF_DOUT_CTP_25'   U1-BA41         #> F02 #> T07 25   BA41  IO_L15P_13
NET   'BF_DOUT_CTP_26'   U1-BA42         #> F02 #> T07 26   BA42  IO_L13N_13
NET   'BF_DOUT_CTP_27'   U1-AW41         #> F03 #> T07 27   AW41  IO_L7N_13
NET   'BF_DOUT_CTP_28'   U1-AV41         #> F05 #> T07 28   AV41  IO_L11P_SRCC_13
NET   'BF_DOUT_CTP_29'   U1-BA39         #> F03 #> T07 29   BA39  IO_L3N_12
NET   'BF_DOUT_CTP_30'   U1-BA40         #> F02 #> T07 30   BA40  IO_L17P_13
NET   'BF_DOUT_CTP_31'   U1-AT40         #> F09 #> T07 31   AT40  IO_L10P_MRCC_13

NET   'BF_DOUT_CTP_64'   U1-BB41         #> F02 #> T07 64   BB41  IO_L15N_13

#
#  CTP Cable #2
#
#  This group uses signals from IO banks 12 and 13 and a regional clock from bank 12

NET   'BF_DOUT_CTP_32'   U1-AN38         #> F02 #> T07 32   AN38  IO_L12P_VRN_13
NET   'BF_DOUT_CTP_33'   U1-BB34         #> F04 #> T07 33   BB34  IO_L15P_12
NET   'BF_DOUT_CTP_34'   U1-AN40         #> F02 #> T07 34   AN40  IO_L0P_13
NET   'BF_DOUT_CTP_35'   U1-AU34         #> F02 #> T07 35   AU34  IO_L16P_12
NET   'BF_DOUT_CTP_36'   U1-AP42         #> F04 #> T07 36   AP42  IO_L3P_13
NET   'BF_DOUT_CTP_37'   U1-AP40         #> F05 #> T07 37   AP40  IO_L0N_13
NET   'BF_DOUT_CTP_38'   U1-AN41         #> F04 #> T07 38   AN41  IO_L1P_13
NET   'BF_DOUT_CTP_39'   U1-AV34         #> F03 #> T07 39   AV34  IO_L18P_12
NET   'BF_DOUT_CTP_40'   U1-AV35         #> F02 #> T07 40   AV35  IO_L18N_12
NET   'BF_DOUT_CTP_41'   U1-AT35         #> F02 #> T07 41   AT35  IO_L12N_VRP_12
NET   'BF_DOUT_CTP_42'   U1-AP37         #> F04 #> T07 42   AP37  IO_L2P_12
NET   'BF_DOUT_CTP_43'   U1-AR38         #> F05 #> T07 43   AR38  IO_L0N_12
NET   'BF_DOUT_CTP_44'   U1-AP41         #> F04 #> T07 44   AP41  IO_L1N_13
NET   'BF_DOUT_CTP_45'   U1-AW35         #> F03 #> T07 45   AW35  IO_L19N_12
NET   'BF_DOUT_CTP_46'   U1-AV36         #> F02 #> T07 46   AV36  IO_L14N_VREF_12
NET   'BF_DOUT_CTP_47'   U1-BB36         #> F02 #> T07 47   BB36  IO_L13P_12
NET   'BF_DOUT_CTP_48'   U1-AR42         #> F04 #> T07 48   AR42  IO_L3N_13
NET   'BF_DOUT_CTP_49'   U1-AT39         #> F05 #> T07 49   AT39  IO_L14N_VREF_13
NET   'BF_DOUT_CTP_50'   U1-AR39         #> F04 #> T07 50   AR39  IO_L14P_13
NET   'BF_DOUT_CTP_51'   U1-AW36         #> F09 #> T07 51   AW36  IO_L14P_12
NET   'BF_DOUT_CTP_52'   U1-BA35         #> F02 #> T07 52   BA35  IO_L17P_12
NET   'BF_DOUT_CTP_53'   U1-AU36         #> F02 #> T07 53   AU36  IO_L6P_12
NET   'BF_DOUT_CTP_54'   U1-AR35         #> F04 #> T07 54   AR35  IO_L12P_VRN_12
NET   'BF_DOUT_CTP_55'   U1-AU39         #> F03 #> T07 55   AU39  IO_L10N_MRCC_13
NET   'BF_DOUT_CTP_56'   U1-AN39         #> F04 #> T07 56   AN39  IO_L2P_13
NET   'BF_DOUT_CTP_57'   U1-BA37         #> F09 #> T07 57   BA37  IO_L11P_SRCC_12
NET   'BF_DOUT_CTP_58'   U1-BA34         #> F02 #> T07 58   BA34  IO_L15N_12
NET   'BF_DOUT_CTP_59'   U1-BB37         #> F02 #> T07 59   BB37  IO_L11N_SRCC_12
NET   'BF_DOUT_CTP_60'   U1-AT42         #> F04 #> T07 60   AT42  IO_L5P_13
NET   'BF_DOUT_CTP_61'   U1-AV40         #> F03 #> T07 61   AV40  IO_L19P_13
NET   'BF_DOUT_CTP_62'   U1-AP38         #> F05 #> T07 62   AP38  IO_L12N_VRP_13
NET   'BF_DOUT_CTP_63'   U1-AN35         #> F09 #> T07 63   AN35  IO_L9P_MRCC_12

NET   'BF_DOUT_CTP_65'   U1-AY34         #> F02 #> T07 65   AY34  IO_L19P_12


############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals used for the highspeed GTX Transmitters
#             -=============---------------------------------------------------------
#
#
#                       Base Function FPGA
#                     ----------------------
#
#
#     Original Rev. 16-Mar-2012
#              Rev. 19-Nov-2012  Add termination resistors
#              Rev: 11-Dec-2012  File name changed for uniformity and consistency between Base and TP files
#              Rev: 31-Dec-2012  Change the net-name on the  MGTAVTTRCAL_115  Calibration Resistor pin.
#              Rev. 16-Jan-2013  Add unused MGT transceiver pins and rename file
#                                                                    base_function_gtx_transceivers_n2r.txt
#              Rev. 14-May-2013  Rearrange the GTX Quad to MiniPOD connections to facilitate trace routing.
#  Most Recent Rev.  2-Oct-2013  Swap 4 Transceiver vs MiniPOD Fiber to equalize differential trace lengths.
#
#
#  Signal Nets referenced in this file:
#  ------------------------------------
#
#  'MPn_Fpp_QUAD_qqq_TRN_r_xxx' are the net names assigned to the MGT Transmitter IO signals with:
#     "n"  is the miniPOD device number (n=1:2 for transmitter 1:2)
#    "pp"  is the fiber number on the minipod device (pp = 0:11)
#   "qqq"  is the FPGA Quad number (qqq = 110:118, but only 110:115 used here)
#     "r"  is the transmitter number on that Quad (r = 0:3)
#   "xxx"  is the signal polarity (xxx = "DIR" for Direct aka Positive or Non-Inverted
#                                     or "CMP" for Complement aka Negative or Inverted)
#
############################################################################################


# Transmitter 1 is MiniPOD device MP1

NET  'MP1_F01_QUAD_110_TRN_0_DIR'            U1-BB3          #  MGTTXP0_110
NET  'MP1_F01_QUAD_110_TRN_0_CMP'            U1-BB4          #  MGTTXN0_110

NET  'MP1_F03_QUAD_110_TRN_1_DIR'            U1-BA1          #  MGTTXP1_110
NET  'MP1_F03_QUAD_110_TRN_1_CMP'            U1-BA2          #  MGTTXN1_110

NET  'MP1_F07_QUAD_110_TRN_2_DIR'            U1-AY3          #  MGTTXP2_110
NET  'MP1_F07_QUAD_110_TRN_2_CMP'            U1-AY4          #  MGTTXN2_110

NET  'MP1_F05_QUAD_110_TRN_3_DIR'            U1-AW1          #  MGTTXP3_110
NET  'MP1_F05_QUAD_110_TRN_3_CMP'            U1-AW2          #  MGTTXN3_110



NET  'MP1_F09_QUAD_111_TRN_0_DIR'            U1-AV3          #  MGTTXP0_111
NET  'MP1_F09_QUAD_111_TRN_0_CMP'            U1-AV4          #  MGTTXN0_111

NET  'MP1_F11_QUAD_111_TRN_1_DIR'            U1-AU1          #  MGTTXP1_111
NET  'MP1_F11_QUAD_111_TRN_1_CMP'            U1-AU2          #  MGTTXN1_111

NET  'MP1_F10_QUAD_111_TRN_2_DIR'            U1-AT3          #  MGTTXP2_111
NET  'MP1_F10_QUAD_111_TRN_2_CMP'            U1-AT4          #  MGTTXN2_111

NET  'MP1_F08_QUAD_111_TRN_3_DIR'            U1-AR1          #  MGTTXP3_111
NET  'MP1_F08_QUAD_111_TRN_3_CMP'            U1-AR2          #  MGTTXN3_111



NET  'MP1_F04_QUAD_112_TRN_0_DIR'            U1-AP3          #  MGTTXP0_112
NET  'MP1_F04_QUAD_112_TRN_0_CMP'            U1-AP4          #  MGTTXN0_112

NET  'MP1_F06_QUAD_112_TRN_1_DIR'            U1-AN1          #  MGTTXP1_112
NET  'MP1_F06_QUAD_112_TRN_1_CMP'            U1-AN2          #  MGTTXN1_112

NET  'MP1_F02_QUAD_112_TRN_2_DIR'            U1-AM3          #  MGTTXP2_112
NET  'MP1_F02_QUAD_112_TRN_2_CMP'            U1-AM4          #  MGTTXN2_112

NET  'MP1_F00_QUAD_112_TRN_3_DIR'            U1-AL1          #  MGTTXP3_112
NET  'MP1_F00_QUAD_112_TRN_3_CMP'            U1-AL2          #  MGTTXN3_112




# Transmitter 2 is MiniPOD device MP2

NET  'MP2_F01_QUAD_113_TRN_0_DIR'            U1-AK3          #  MGTTXP0_113
NET  'MP2_F01_QUAD_113_TRN_0_CMP'            U1-AK4          #  MGTTXN0_113

NET  'MP2_F03_QUAD_113_TRN_1_DIR'            U1-AJ1          #  MGTTXP1_113
NET  'MP2_F03_QUAD_113_TRN_1_CMP'            U1-AJ2          #  MGTTXN1_113

NET  'MP2_F07_QUAD_113_TRN_2_DIR'            U1-AH3          #  MGTTXP2_113
NET  'MP2_F07_QUAD_113_TRN_2_CMP'            U1-AH4          #  MGTTXN2_113

NET  'MP2_F05_QUAD_113_TRN_3_DIR'            U1-AG1          #  MGTTXP3_113
NET  'MP2_F05_QUAD_113_TRN_3_CMP'            U1-AG2          #  MGTTXN3_113



NET  'MP2_F09_QUAD_114_TRN_0_DIR'            U1-AE1          #  MGTTXP0_114
NET  'MP2_F09_QUAD_114_TRN_0_CMP'            U1-AE2          #  MGTTXN0_114

NET  'MP2_F11_QUAD_114_TRN_1_DIR'            U1-AC1          #  MGTTXP1_114
NET  'MP2_F11_QUAD_114_TRN_1_CMP'            U1-AC2          #  MGTTXN1_114

NET  'MP2_F10_QUAD_114_TRN_2_DIR'            U1-AA1          #  MGTTXP2_114
NET  'MP2_F10_QUAD_114_TRN_2_CMP'            U1-AA2          #  MGTTXN2_114

NET  'MP2_F08_QUAD_114_TRN_3_DIR'            U1-W1           #  MGTTXP3_114
NET  'MP2_F08_QUAD_114_TRN_3_CMP'            U1-W2           #  MGTTXN3_114



NET  'MP2_F04_QUAD_115_TRN_0_DIR'            U1-U1           #  MGTTXP0_115
NET  'MP2_F04_QUAD_115_TRN_0_CMP'            U1-U2           #  MGTTXN0_115

NET  'MP2_F06_QUAD_115_TRN_1_DIR'            U1-T3           #  MGTTXP1_115
NET  'MP2_F06_QUAD_115_TRN_1_CMP'            U1-T4           #  MGTTXN1_115

NET  'MP2_F02_QUAD_115_TRN_2_DIR'            U1-R1           #  MGTTXP2_115
NET  'MP2_F02_QUAD_115_TRN_2_CMP'            U1-R2           #  MGTTXN2_115

NET  'MP2_F00_QUAD_115_TRN_3_DIR'            U1-P3           #  MGTTXP3_115
NET  'MP2_F00_QUAD_115_TRN_3_CMP'            U1-P4           #  MGTTXN3_115




#  Now connect the GTX Termination Calibration Resistor

#  This is a precision 100 Ohm resistor.
#  See Chapter 5 page 274 of the
#  Virtex-6  GTX User Guide.
#
#  The other half of these connections is in:
#
#     ..../Everything_Else/dci_gtx_res_nets_n2p.txt
#

NET  'BF_MGTRREF'   U1-B11          # B11   Base Function MGTRREF pin  MGTRREF_115

NET  'BF_GTX_AVTT'  U1-A12          # A12   Base Function MGTAVTTRCAL  MGTAVTTRCAL_115
                                           # connected to the BF_GTX_AVTT bus
                                           # as indicated in the User Guide



############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals used for the SFP Low-Speed DAQ & ROI Data
#             -=============----------------------------------------------------------
#
#
#    This file includes the nets for:
#
#      - the Base Function DAQ output data to SFP1 Transmitter
#      - the Base Function ROI output data to SFP2 Transmitter
#      - the S-Link Control Signals received on SFP1 SFP2 SFP3 SFP4
#



#
#     Original Rev.  5-Dec-2012
#              Rev: 11-Dec-2012 File name changed for uniformity and
#                                 consistency between Base and TP files
#              Rev: 16-Jan-2013 Rename nets to start with "BF_"
#  Most Recent Rev: 26-Apr-2013 Add the S-Link control signls received
#                                 from SFP1 SFP2 SFP3 SFP4
#


#
#                      Base Function FPGA
#
#       DAQ and ROI Data Outputs to SFP Optical Transmitters
#
#       SFP1         Base Function  DAQ SFP Optical Output
#       SFP2         Base Function  RIO SFP Optical Output
#


NET  'BF_DAQ_DATA_OUT_DIR'        U1-B3           # B3  DAQ Data Output Direct  MGTTXP3_118
NET  'BF_DAQ_DATA_OUT_CMP'        U1-B4           # B4  DAQ Data Output Complement  MGTTXN3_118

NET  'BF_ROI_DATA_OUT_DIR'        U1-C1           # C1  ROI Data Output Direct  MGTTXP2_118
NET  'BF_ROI_DATA_OUT_CMP'        U1-C2           # C2  ROI Data Output Complement  MGTTXN2_118




#
#         S-Link Control Singal  Inputs from SFP1:SFP4
#
#
#      SFP1 Received Data  goes to  Quad 117  Receiver 3
#      SFP2 Received Data  goes to  Quad 117  Receiver 2
#      SFP3 Received Data  goes to  Quad 117  Receiver 1
#      SFP4 Received Data  goes to  Quad 117  Receiver 0
#

NET  'SFP1_RD_DIR'        U1-E5           # E5  SFP1 Receiver Data Direct  MGTRXP3_117
NET  'SFP1_RD_CMP'        U1-E6           # E6  SFP1 Receiver Data Complement  MGTRXN3_117

NET  'SFP2_RD_DIR'        U1-F7           # F7  SFP2 Receiver Data Direct  MGTRXP2_117
NET  'SFP2_RD_CMP'        U1-F8           # F8  SFP2 Receiver Data Complement  MGTRXN2_117

NET  'SFP3_RD_DIR'        U1-G5           # G5  SFP3 Receiver Data Direct  MGTRXP1_117
NET  'SFP3_RD_CMP'        U1-G6           # G6  SFP3 Receiver Data Complement  MGTRXN1_117

NET  'SFP4_RD_DIR'        U1-H7           # H7  SFP4 Receiver Data Direct  MGTRXP0_117
NET  'SFP4_RD_CMP'        U1-H8           # H8  SFP4 Receiver Data Complement  MGTRXN0_117



############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals used for the System Monitor IO signals
#             -=============--------------------------------------------------------
#
#
#     Original Rev. 21-Nov-2012 Collect System Monitor signals freed from backplane input resources
#  Most Recent Rev: 11-Dec-2012 File name changed for uniformity and consistency between Base and TP files
#
#
#  Signal Nets referenced in this file:
#  ------------------------------------
#
#  'BF_SYSMON_xx_P' and 'BF_SYSMON_xx_N' form the pair of pins used as system monitor inputs
#  The "_P" postfix is used for the positive pin and "_N" for the negative pin of the differential input.
#  The CMX is only able to use 12 of the 16 user inputs on the FPGA.
#  To help with Firmware, we keep the Virtex 6 channel numbering and end up with a
#  non-contiguous set of 12 channel numbers, namely xx= 2, 3, 4, 7, 8, 9, 10, 11, 12, 13, 14, 15
#
#   Note: Trace layer information is appended as comments below.
#   -----
#
#     NET   'BF_SYSMON_03_P'   U1-<IO_L6P_SM3P_35>                      #> F06 #> T01 00   H137
#
#                                                                       ^   ^      ^  ^    ^
#                                                                       |   |      |  |    |
#   Tailored comment flag to help with string searches -----------------+   |      |  |    |
#                                                                           |      |  |    |
#   Target Trace Layer number to use for this net --------------------------+      |  |    |
#   as it exits the FPGA (to reach a via near the perimeter)                       |  |    |
#   F01 is top layer, F02 the first inner layer, etc                               |  |    |
#                                                                                  |  |    |
#   Target Trace Layer number to use for this net ---------------------------------+  |    |
#   for the long haul to the resource being monitored                                 |    |
#   T01 is top layer, T02 the first inner layer, etc                                  |    |
#                                                                                     |    |
#   Signal number is repeated to help manual entry of Pin Number ---------------------+    |
#                                                                                          |
#   Target Pin Number read from paper study -----------------------------------------------+
#   and cross-checked after Match_Res2Pin
#
############################################################################################


#     'BF_SYSMON_00_P'  This system Monitor user input is unaccessible
#     'BF_SYSMON_00_N'  as these pins are used for backplane inputs

NET   'BF_SYSMON_01_P'   U1-D16          #> F10 #> T0  00   D16  IO_L3P_SM1P_35
NET   'BF_SYSMON_01_N'   U1-C16          #> F10 #> T0  00   C16  IO_L3N_SM1N_35

#     'BF_SYSMON_02_P'  This system Monitor user input is unaccessible
#     'BF_SYSMON_02_N'  as these pins are used for backplane inputs

NET   'BF_SYSMON_03_P'   U1-H13          #> F06 #> T0  00   H13  IO_L6P_SM3P_35
NET   'BF_SYSMON_03_N'   U1-G12          #> F06 #> T0  00   G12  IO_L6N_SM3N_35

NET   'BF_SYSMON_04_P'   U1-C15          #> F06 #> T0  00   C15  IO_L7P_SM4P_35
NET   'BF_SYSMON_04_N'   U1-D15          #> F06 #> T0  00   D15  IO_L7N_SM4N_35

#     'BF_SYSMON_05_P'  This system Monitor user input is unaccessible
#     'BF_SYSMON_05_N'  as these pins are used for backplane inputs

#     'BF_SYSMON_06_P'  This system Monitor user input is unaccessible
#     'BF_SYSMON_06_N'  as these pins are used for backplane inputs

NET   'BF_SYSMON_07_P'   U1-C13          #> F10 #> T0  00   C13  IO_L15P_SM7P_35
NET   'BF_SYSMON_07_N'   U1-D12          #> F10 #> T0  00   D12  IO_L15N_SM7N_35

NET   'BF_SYSMON_08_P'   U1-AE33         #> F07 #> T0  00   AE33  IO_L2P_SM8P_15
NET   'BF_SYSMON_08_N'   U1-AD33         #> F07 #> T0  00   AD33  IO_L2N_SM8N_15

NET   'BF_SYSMON_09_P'   U1-AB39         #> F05 #> T0  00   AB39  IO_L3P_SM9P_15
NET   'BF_SYSMON_09_N'   U1-AA40         #> F05 #> T0  00   AA40  IO_L3N_SM9N_15

NET   'BF_SYSMON_10_P'   U1-AA41         #> F07 #> T0  00   AA41  IO_L5P_SM10P_15
NET   'BF_SYSMON_10_N'   U1-AB41         #> F07 #> T0  00   AB41  IO_L5N_SM10N_15

NET   'BF_SYSMON_11_P'   U1-AD38         #> F04 #> T0  00   AD38  IO_L6N_SM11N_15
NET   'BF_SYSMON_11_N'   U1-AE38         #> F04 #> T0  00   AE38  IO_L6P_SM11P_15

NET   'BF_SYSMON_12_P'   U1-AA42         #> F09 #> T0  00   AA42  IO_L7P_SM12P_15
NET   'BF_SYSMON_12_N'   U1-AB42         #> F09 #> T0  00   AB42  IO_L7N_SM12N_15

NET   'BF_SYSMON_13_P'   U1-AB32         #> F02 #> T0  00   AB32  IO_L12P_SM13P_15
NET   'BF_SYSMON_13_N'   U1-AB33         #> F02 #> T0  00   AB33  IO_L12N_SM13N_15

NET   'BF_SYSMON_14_P'   U1-AC40         #> F09 #> T0  00   AC40  IO_L13P_SM14P_15
NET   'BF_SYSMON_14_N'   U1-AD40         #> F09 #> T0  00   AD40  IO_L13N_SM14N_15

NET   'BF_SYSMON_15_P'   U1-AD42         #> F02 #> T0  00   AD42  IO_L15P_SM15P_15
NET   'BF_SYSMON_15_N'   U1-AE42         #> F02 #> T0  00   AE42  IO_L15N_SM15N_15

############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals used for the On-Card VME bus signals
#             -=============------------------------------------------------------
#
#
#     Original Rev. 13-Sep-2012
#              Rev: 17-Sep-2012  Arbitrary temporary assignement
#              Rev: 19-Nov-2012  Re-do breakout strategy and Add Goeographic Address signals.
#                                Pick the quietest lines to share IO bank 13 with CTP output
#              Rev. 30-Nov-2012 Studying the set of unused pins generated 1 allocation improvement here
#              Rev: 11-Dec-2012 File name changed for uniformity and consistency between Base and TP files
#              Rev: 14-Jan-2013 Edit header comments and tentatively set comments to specify layer 7 for vertical run
#              Rev: 30-May-2013 Fix order of geographic address lines
#  Most Recent Rev: 03-Jun-2013 swap pins for OCB_GEO_ADRS_1 and _3 to avoid additional via
#
#
#
#  Signal Nets referenced in this file:
#  ------------------------------------
#
#  'OCB_Axx' are the On-Card Bus Address lines to the Base FPGA with xx=01 to 23
#            (note there is no "A00" signal)
#
#  'OCB_Dyy' are the On-Card Bus Data lines to the Base FPGA with yy=00 to 15
#
#  'OCB_GEO_ADRS_z' are the On-Card Bus Geographic Section Address lines with z=0 to 6
#
#
#  'OCB_SYS_RESET_B' is the On-Card Bus VME SYS_RESET signal
#     The "_B" postfix is used to indicate that the reset request is active
#     when the electrical signal is low
#
#  'OCB_DS_B' is the On-Card Bus Data strobe.
#     The "_B" postfix is used to indicate that the data strobe signal is on the
#     falling edge of the electrical signal.
#
#  'OCB_WRITE_B' is the On-Card Bus Data Direction
#     The "_B" postfix is used to indicate that the Write direction is
#     requested when the electrical signal is low.
#
#
#  IO Banks used
#  -------------
#
#  Most signal nets are assigned to IO Bank 14 and a few to Io Bank 13
#  - All address line nets are in IO Bank 14
#  - All data line nets are in IO Bank 14
#  - The Data Strobe net is assigned to a regional clock pin in IO Bank 14
#  - The Board Select net is assigned to a regional clock pin in IO Bank 13
#  - The Write Net is assigned to an IO input pin in Bank 13
#  - The Sys_Reset net is assigned to an IO input pin in Bank 13
#
#  The bulk of IO Bank 13 is used for the CTP output signals
#
#   Note: Trace layer information is appended as comments below.
#   -----
#
#     NET   'OCB_A01'          U1-<IO_L15N_14>                          #> F06 #> T07 A01 AM41
#
#                                                                        ^  ^      ^  ^    ^
#                                                                        |  |      |  |    |
#   Tailored comment flag to help with string searches ------------------+  |      |  |    |
#                                                                           |      |  |    |
#   Target Trace Layer number to use for this net --------------------------+      |  |    |
#   as it exits the FPGA (to reach a nearby via)                                   |  |    |
#   F01 is top layer, F02 the first inner layer, etc                               |  |    |
#                                                                                  |  |    |
#   Target Trace Layer number to use for this net ---------------------------------+  |    |
#   as it connects the VME bus transceiver section to the two FPGAs                   |    |
#   T01 is top layer, T02 the first inner layer, etc                                  |    |
#                                                                                     |    |
#   Signal number is repeated to help manual entry of Pin Number ---------------------+    |
#                                                                                          |
#   Target Pin Number read from paper drawing ---------------------------------------------+
#   and cross-checked after Match_Res2Pin
#
############################################################################################


# The lower Address (1:20), all Data, the Data Strobe, Direction and SysReset signals are in IO Bank 14
# The data strobe is assigned to a regional clock input pin (but probably not used as a clock)

NET   'OCB_A01'          U1-AM41         #> F06 #> T07 A01  AM41  IO_L15N_14
NET   'OCB_A02'          U1-AM42         #> F06 #> T07 A02  AM42  IO_L13N_14
NET   'OCB_A03'          U1-AL41         #> F06 #> T07 A03  AL41  IO_L15P_14
NET   'OCB_A04'          U1-AL42         #> F06 #> T07 A04  AL42  IO_L13P_14
NET   'OCB_A05'          U1-AK40         #> F06 #> T07 A05  AK40  IO_L17P_14
NET   'OCB_A06'          U1-AK42         #> F06 #> T07 A06  AK42  IO_L7N_14
NET   'OCB_A07'          U1-AJ41         #> F06 #> T07 A07  AJ41  IO_L5N_14
NET   'OCB_A08'          U1-AJ42         #> F06 #> T07 A08  AJ42  IO_L7P_14
NET   'OCB_A09'          U1-AH40         #> F06 #> T07 A09  AH40  IO_L5P_14
NET   'OCB_A10'          U1-AH41         #> F06 #> T07 A10  AH41  IO_L3N_14
NET   'OCB_A11'          U1-AG42         #> F06 #> T07 A11  AG42  IO_L3P_14
NET   'OCB_A12'          U1-AG38         #> F06 #> T07 A12  AG38  IO_L4P_14
NET   'OCB_A13'          U1-AJ36         #> F03 #> T07 A13  AJ36  IO_L12P_VRN_14
NET   'OCB_A14'          U1-AH36         #> F03 #> T07 A14  AH36  IO_L14N_VREF_14
NET   'OCB_A15'          U1-AG34         #> F03 #> T07 A15  AG34  IO_L0P_14
NET   'OCB_A16'          U1-AF35         #> F03 #> T07 A16  AF35  IO_L16P_14
NET   'OCB_A17'          U1-AL40         #> F05 #> T07 A17  AL40  IO_L17N_14
NET   'OCB_A18'          U1-AK38         #> F05 #> T07 A18  AK38  IO_L8P_SRCC_14
NET   'OCB_A19'          U1-AJ40         #> F05 #> T07 A19  AJ40  IO_L11N_SRCC_14
NET   'OCB_A20'          U1-AH39         #> F05 #> T07 A20  AH39  IO_L11P_SRCC_14

NET   'OCB_D00'          U1-AF34         #> F02 #> T07 D00  AF34  IO_L0N_14
NET   'OCB_D01'          U1-AG33         #> F02 #> T07 D01  AG33  IO_L18N_14
NET   'OCB_D02'          U1-AH35         #> F02 #> T07 D02  AH35  IO_L12N_VRP_14
NET   'OCB_D03'          U1-AJ35         #> F02 #> T07 D03  AJ35  IO_L9N_MRCC_14
NET   'OCB_D04'          U1-AF36         #> F04 #> T07 D04  AF36  IO_L16N_14
NET   'OCB_D05'          U1-AG36         #> F04 #> T07 D05  AG36  IO_L14P_14
NET   'OCB_D06'          U1-AH38         #> F04 #> T07 D06  AH38  IO_L4N_VREF_14
NET   'OCB_D07'          U1-AJ38         #> F04 #> T07 D07  AJ38  IO_L8N_SRCC_14
NET   'OCB_D08'          U1-AK37         #> F04 #> T07 D08  AK37  IO_L10N_MRCC_14
NET   'OCB_D09'          U1-AL39         #> F04 #> T07 D09  AL39  IO_L19N_14
NET   'OCB_D10'          U1-AF39         #> F05 #> T07 D10  AF39  IO_L2P_14
NET   'OCB_D11'          U1-AF37         #> F05 #> T07 D11  AF37  IO_L6P_14
NET   'OCB_D12'          U1-AG37         #> F05 #> T07 D12  AG37  IO_L6N_14
NET   'OCB_D13'          U1-AF40         #> F09 #> T07 D13  AF40  IO_L1P_14
NET   'OCB_D14'          U1-AG41         #> F09 #> T07 D14  AG41  IO_L1N_14
NET   'OCB_D15'          U1-AG39         #> F09 #> T07 D15  AG39  IO_L2N_14

NET   'OCB_SYS_RESET_B'  U1-AK39         #> F09 #> T07 RES  AK39  IO_L19P_14
NET   'OCB_WRITE_B'      U1-AJ37         #> F09 #> T07 WRI  AJ37  IO_L10P_MRCC_14

NET   'OCB_DS_B'         U1-AH34         #> F09 #> T07 DS   AH34  IO_L9P_MRCC_14


# The upper Address (21:23), and all Geographic Address signals are in IO Bank 13
# as these signals are static or thought to change less often and will probably
# minimize interaction with the CTP output also using Bank 13.

NET   'OCB_A21'          U1-AM34         #> F02 #> T07 A21  AM34  IO_L6P_13
NET   'OCB_A22'          U1-AL36         #> F02 #> T07 A22  AL36  IO_L18N_13
NET   'OCB_A23'          U1-AK34         #> F02 #> T07 A23  AK34  IO_L9N_MRCC_13

NET   'OCB_GEO_ADRS_0'   U1-AM37         #> F03 #> T07 GA0  AM37  IO_L16P_13
NET   'OCB_GEO_ADRS_1'   U1-AM36         #> F03 #> T07 GA1  AM36  IO_L16N_13
NET   'OCB_GEO_ADRS_2'   U1-AL37         #> F03 #> T07 GA2  AL37  IO_L4P_13
NET   'OCB_GEO_ADRS_3'   U1-AK35         #> F04 #> T07 GA3  AK35  IO_L18P_13
NET   'OCB_GEO_ADRS_4'   U1-AM38         #> F05 #> T07 GA4  AM38  IO_L4N_VREF_13
NET   'OCB_GEO_ADRS_5'   U1-AL35         #> F09 #> T07 GA5  AL35  IO_L6N_13
NET   'OCB_GEO_ADRS_6'   U1-AM39         #> F09 #> T07 GA6  AM39  IO_L2N_13

############################################################################################
#
#                     CMX Net-to-Resource File
#                    --------------------------
#
#
#            Clock  Connections to the  Base Function  FPGA
#           ----------------------------=============-------
#
#
#
#     Original Rev. 24-AUG-2012
#              Rev. 26-Nov-2012
#              Rev: 11-Dec-2012  File name changed for uniformity and consistency between Base and TP files
#              Rev: 26-Dec-2012  Change "Clk" in net_names to "CLK".
#              Rev: 29-Dec-2012  Remove the JTAG nets from this file.  Remove "jtag" from the filename.
#              Rev: 16-Jan-2013  Change "Not_Used_" to "No_Conn_".
#              Rev: 28-Mar-2013  Add third logic global clock
#  Most Recent Rev:  2-May-2013  Change Logic and GTX clock net names to
#                                  reflect the 40.08 or 320.64 MHz LHC clocks
#                                  and the 40.000 or 100.000 MHz Crystal clocks
#



#
#       Base Function FPGA  Clocks  for Logic and Transceivers
#      ---------------------======----------------------------
#


#
#      LHC Locked   Logic Clocks
#
#  Connect the 40.08 MHz and 320.64 MHz  Logic Clocks  to
#  the Base Function FPGA.  These are LHC locked LVDS clock
#  signals to the Logic in the Base Function FPGA.
#
#  A Global Clock input in I/O Bank 34 receives the DeSkew #1  40.08 MHz Logic clock.
#
#  A Global Clock input in I/O Bank 25 receives the DeSkew #2  40.08 MHz Logic clock.
#
#  A Global Clock input in I/O Bank 34 receives the           320.64 MHz Logic clock.
#

NET  'CLK_40MHz08_DSKW_1_BF_LOGIC_DIR'   U1-AY14         # AY14  40.08 MHz DeSkew-1 LHC Logic  IO_L0P_GC_34
NET  'CLK_40MHz08_DSKW_1_BF_LOGIC_CMP'   U1-AY13         # AY13  Clk to the Base Function FPGA  IO_L0N_GC_34


NET  'CLK_40MHz08_DSKW_2_BF_LOGIC_DIR'   U1-J42          # J42   40.08 MHz DeSkew-2 LHC Logic  IO_L18P_GC_25
NET  'CLK_40MHz08_DSKW_2_BF_LOGIC_CMP'   U1-K42          # K42   Clk to the Base Function FPGA  IO_L18N_GC_25


NET  'CLK_320MHz64_LHC_BF_LOGIC_DIR'     U1-AP12         # AP12  320.64 MHz LHC Logic Clock  IO_L1N_GC_34
NET  'CLK_320MHz64_LHC_BF_LOGIC_CMP'     U1-AP11         # AP11  to the Base Function FPGA  IO_L1P_GC_34




#
#      Crystal Oscillator #1   GTX Clock
#
#  Now to the Base Function FPGA  connect the 40.000 MHz
#  Crystal Oscillator #1  LVPECL clock to the clock "0"
#  input of the GTX Transceiver Quad 118.
#
#  This is the "G-Link" transciever for DAQ and RIO readout.
#

NET  'CLK_40MHz000_XTAL_1_BF_TRNCV_DIR'   U1-C10          # C10  40.000 MHz Crystal Osc #1  MGTREFCLK0P_118
NET  'CLK_40MHz000_XTAL_1_BF_TRNCV_CMP'   U1-C9           # C9   GTX Clk to the  BF  FPGA  MGTREFCLK0N_118




#
#      Crystal Oscillator #2   GTX Clock
#
#  Now to the Base Function FPGA  connect the 40.000 MHz
#  or 100.000 Mhz  Crystal Oscillator #2  LVPECL clock to
#  the clock "0" input of the GTX Transceiver Quad 117.
#
#  This is the clock to the GTX Transcievers that receive
#  data from the 4 SFP optical components and thus may be
#  used to receive S-Link control information.
#

NET  'CLK_100MHz000_XTAL_2_BF_TRNCV_DIR'  U1-G10          # G10  100.000 MHz Crystal Osc #2  MGTREFCLK0P_117
NET  'CLK_100MHz000_XTAL_2_BF_TRNCV_CMP'  U1-G9           # G9   GTX Clk to the  BF  FPGA  MGTREFCLK0N_117
                                                                 #   This could also be 40.000 MHz




#
#      LHC Locked   GTX Clocks
#
#  Now on the Base Function FPGA  connect the 320.64 MHz
#  LHC locked  LVPECL clocks to the clock inputs for
#  the GTX Transceivers.
#
#  We will use the "0" clock inputs to the Quad Banks
#  111 and 114  to receive these Transceiver clocks.
#  These are the Base Function GTX Transceivers that
#  send out 6.4 Gbps data to the L1Topo system.
#

NET  'CLK_320MHz64_LHC_BF_QUAD_111_DIR'   U1-AU10         # AU10  320.64 MHz LHC GTX Clk #1  MGTREFCLK0P_111
NET  'CLK_320MHz64_LHC_BF_QUAD_111_CMP'   U1-AU9          # AU9   to the Base Function FPGA  MGTREFCLK0N_111

NET  'CLK_320MHz64_LHC_BF_QUAD_114_DIR'   U1-AB8          # AB8   320.64 MHz LHC GTX Clk #2  MGTREFCLK0P_114
NET  'CLK_320MHz64_LHC_BF_QUAD_114_CMP'   U1-AB7          # AB7   to the Base Function FPGA  MGTREFCLK0N_114




#
#  Now on the Base Function FPGA  connect ALL of the
#  UN-Used Tranceiver Clock Inputs to single point nets.
#

#  Not Used Bank 110 Clock Inputs

NET  'No_Conn_BF_GTX_CLK_0_110_DIR'   U1-BA10         # pin BA10  MGTREFCLK0P_110
NET  'No_Conn_BF_GTX_CLK_0_110_CMP'   U1-BA9          # pin BA9  MGTREFCLK0N_110

NET  'No_Conn_BF_GTX_CLK_1_110_DIR'   U1-AW10         # pin AW10  MGTREFCLK1P_110
NET  'No_Conn_BF_GTX_CLK_1_110_CMP'   U1-AW9          # pin AW9  MGTREFCLK1N_110


#  Not Used Bank 111 Clock Input

NET  'No_Conn_BF_GTX_CLK_1_111_DIR'   U1-AT8          # pin AT8  MGTREFCLK1P_111
NET  'No_Conn_BF_GTX_CLK_1_111_CMP'   U1-AT7          # pin AT7  MGTREFCLK1N_111


#  Not Used Bank 112 Clock Inputs

NET  'No_Conn_BF_GTX_CLK_0_112_DIR'   U1-AK8          # pin AK8  MGTREFCLK0P_112
NET  'No_Conn_BF_GTX_CLK_0_112_CMP'   U1-AK7          # pin AK7  MGTREFCLK0N_112

NET  'No_Conn_BF_GTX_CLK_1_112_DIR'   U1-AH8          # pin AH8  MGTREFCLK1P_112
NET  'No_Conn_BF_GTX_CLK_1_112_CMP'   U1-AH7          # pin AH7  MGTREFCLK1N_112


#  Not Used Bank 113 Clock Inputs

NET  'No_Conn_BF_GTX_CLK_0_113_DIR'   U1-AF8          # pin AF8  MGTREFCLK0P_113
NET  'No_Conn_BF_GTX_CLK_0_113_CMP'   U1-AF7          # pin AF7  MGTREFCLK0N_113

NET  'No_Conn_BF_GTX_CLK_1_113_DIR'   U1-AD8          # pin AD8  MGTREFCLK1P_113
NET  'No_Conn_BF_GTX_CLK_1_113_CMP'   U1-AD7          # pin AD7  MGTREFCLK1N_113


#  Not Used Bank 114 Clock Input

NET  'No_Conn_BF_GTX_CLK_1_114_DIR'   U1-Y8           # pin Y8  MGTREFCLK1P_114
NET  'No_Conn_BF_GTX_CLK_1_114_CMP'   U1-Y7           # pin Y7  MGTREFCLK1N_114


#  Not Used Bank 115 Clock Inputs

NET  'No_Conn_BF_GTX_CLK_0_115_DIR'   U1-V8           # pin V8  MGTREFCLK0P_115
NET  'No_Conn_BF_GTX_CLK_0_115_CMP'   U1-V7           # pin V7  MGTREFCLK0N_115

NET  'No_Conn_BF_GTX_CLK_1_115_DIR'   U1-T8           # pin T8  MGTREFCLK1P_115
NET  'No_Conn_BF_GTX_CLK_1_115_CMP'   U1-T7           # pin T7  MGTREFCLK1N_115


#  Not Used Bank 116 Clock Inputs

NET  'No_Conn_BF_GTX_CLK_0_116_DIR'   U1-M8           # pin M8  MGTREFCLK0P_116
NET  'No_Conn_BF_GTX_CLK_0_116_CMP'   U1-M7           # pin M7  MGTREFCLK0N_116

NET  'No_Conn_BF_GTX_CLK_1_116_DIR'   U1-K8           # pin K8  MGTREFCLK1P_116
NET  'No_Conn_BF_GTX_CLK_1_116_CMP'   U1-K7           # pin K7  MGTREFCLK1N_116


#  Not Used Bank 117 Clock Input

NET  'No_Conn_BF_GTX_CLK_1_117_DIR'   U1-E10          # pin E10  MGTREFCLK1P_117
NET  'No_Conn_BF_GTX_CLK_1_117_CMP'   U1-E9           # pin E9  MGTREFCLK1N_117


#  Not Used Bank 118 Clock Input

NET  'No_Conn_BF_GTX_CLK_1_118_DIR'   U1-A10          # pin A10  MGTREFCLK1P_118
NET  'No_Conn_BF_GTX_CLK_1_118_CMP'   U1-A9           # pin A9  MGTREFCLK1N_118



############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals used for the connections to the TTC signals
#             -=============------------------------------------------==================
#
#
#     Original Rev. 28-Mar-2012
#  Most Recent Rev. 28-Mar-2013 find location for these 2x signals without interfering with backplane inputs
#
#  Signal Nets referenced in this file:
#  ------------------------------------
#
#   BUF_TTC_L1_ACCEPT      Buffered and series terminated copy of TTCdec L1 Accept signal
#
#   BUF_TTC_BNCH_CNT_RES   Buffered and series terminated copy of TTCdec Bunch Count Reset signal
#
############################################################################################

# 2x signals are connecting to the buffered version of the TTCdec signals

NET  'BUF_TTC_L1_ACCEPT'               U1-H39          #> F05 #> T06        H39  IO_L6P_25

NET  'BUF_TTC_BNCH_CNT_RES'            U1-K40          #> F05 #> T06        K40  IO_L16N_VRP_25

# Note: One global clock from this IO Bank is also used cf. base_function_22_clocks_n2r.txt

# Note: Two differential signals from this IO Bank are also used cf. base_function_24_to_tp_fpga_n2r.txt

############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals used for the connections to the TP FPGA
#             -=============------------------------------------------================
#
#     Original Rev. 02-Apr-2012
#  Most Recent Rev. 02-Apr-2013 find location for these signals whithout interfering with other signals
#
#       BF to TP connections for support of S-link return channels
#       ========----------------------------======================
#
# If the TP function needs to support S-link protocol (rather than G-link)
# the CMX will need to receive the return channel of the Duplex S-link.
#
# The SFP optical receiver from the 2x S-link connections (DAQ and ROI)
# cannot be directly received in the TP FPGA because all 36x MGT receivers
# of the TP FPGA are already used with the 3x12 Avago optical receivers.
#
# The SFP optical receivers are instead routed to MGT receivers located
# on the BF FPGA and the serial signal received is sent from the BF FPGA
# to the TP FPGA via two differential Select IO signals.
#
#  Signal Nets referenced in this file:
#  ------------------------------------
#
#  BF_TO_TP_DAQ_SLINK_RETURN_DIR  Direct signal
#  BF_TO_TP_DAQ_SLINK_RETURN_CMP  Complement signal
#                                 for the return S-link channel for DAQ readout
#
#  BF_TO_TP_ROI_SLINK_RETURN_DIR  Direct signal
#  BF_TO_TP_ROI_SLINK_RETURN_CMP  Complement signal
#                                 for the return S-link channel for ROI readout
#
############################################################################################

# 4x Select IO pins forming 2x differential signals going to the TP FPGA
# This is IO Bank 25 and the signals will be routed south on trace layer 6.

NET  'BF_TO_TP_DAQ_SLINK_RETURN_DIR'   U1-H40          #> F05 #> T06        H40  IO_L12P_25
NET  'BF_TO_TP_DAQ_SLINK_RETURN_CMP'   U1-H41          #> F05 #> T06        H41  IO_L12N_25

NET  'BF_TO_TP_ROI_SLINK_RETURN_DIR'   U1-J40          #> F07 #> T06        J40  IO_L14P_25
NET  'BF_TO_TP_ROI_SLINK_RETURN_CMP'   U1-J41          #> F07 #> T06        J41  IO_L14N_VREF_25

# Note: One global clock from this IO Bank is also used cf. base_function_22_clocks_n2r.txt

# Note: Two pins from this IO Bank are also used for TTC cf. base_function_23_ttc_connections_n2r.txt
############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals used for the connections to the Board Support FPGA
#             -=============------------------------------------------==========================
#
#
#     Original Rev. 28-Mar-2012
#              Rev. 28-Mar-2013 find location for these 18x signals without interfering with backplane inputs
#  Most Recent Rev: 30-May-2013 BF to BSPT connections were re-arranged after the layout of the backplane inputs
#
#  Signal Nets referenced in this file:
#  ------------------------------------
#
#   BF_REQ_CTP_n_INPUT    (n=1:2)  2x direction request for CTP cable n sent to BSPT FPGA
#
#   BF_REQ_CABLE_n_INPUT  (n=1:3)  3x direction request for Merger Cable n sent to BSPT FPGA
#
#   BF_LED_REQ_n          (n=0:4)  5x LED state request sent to BSPT FPGA
#
#   BF_TO_FROM_BSPT_n     (n=0:7)  8x un-assigned Input or Ouput connections to BSPT FPGA
#
############################################################################################

# 18x signals are going to the Board Support FPGA on layer 7
# These signals are listed in west to east order as they leave the FPGA area on layer 7
# The middle 8 signals first reach a row of vias on layer 1 or 6 and exit on layer 7

NET  'BF_REQ_CTP_1_INPUT'              U1-N19          #> F07 #> T07        N19  IO_L9N_MRCC_38
NET  'BF_REQ_CTP_2_INPUT'              U1-N20          #> F07 #> T07        N20  IO_L19N_38

NET  'BF_REQ_CABLE_1_INPUT'            U1-P21          #> F07 #> T07        P21  IO_L18P_38
NET  'BF_REQ_CABLE_2_INPUT'            U1-P22          #> F07 #> T07        P22  IO_L18N_38
NET  'BF_REQ_CABLE_3_INPUT'            U1-K23          #> F07 #> T07        K23  IO_L8N_SRCC_38

NET  'BF_LED_REQ_0'                    U1-G24          #> F07 #> T07        G24  IO_L0N_38
NET  'BF_LED_REQ_1'                    U1-F25          #> F07 #> T07        F25  IO_L2P_38
NET  'BF_LED_REQ_2'                    U1-A25          #> F01 #> T07        A25  IO_L11N_SRCC_38
NET  'BF_LED_REQ_3'                    U1-C25          #> F01 #> T07        C25  IO_L15N_38
NET  'BF_LED_REQ_4'                    U1-F24          #> F01 #> T07        F24  IO_L2N_38

NET  'BF_TO_FROM_BSPT_0'               U1-A26          #> F06 #> T07        A26  IO_L11P_SRCC_38
NET  'BF_TO_FROM_BSPT_1'               U1-B26          #> F06 #> T07        B26  IO_L15P_38
NET  'BF_TO_FROM_BSPT_2'               U1-D25          #> F01 #> T07        D25  IO_L17P_38
NET  'BF_TO_FROM_BSPT_3'               U1-A27          #> F01 #> T07        A27  IO_L7N_38
NET  'BF_TO_FROM_BSPT_4'               U1-F26          #> F01 #> T07        F26  IO_L5N_38
NET  'BF_TO_FROM_BSPT_5'               U1-E25          #> F07 #> T07        E25  IO_L17N_38
NET  'BF_TO_FROM_BSPT_6'               U1-D26          #> F07 #> T07        D26  IO_L13N_38
NET  'BF_TO_FROM_BSPT_7'               U1-E27          #> F07 #> T07        E27  IO_L1P_38

# note: other Select IO pins on IO Bank 38 are used for connections to the debug connector
#       cf. base_function_26_debug_connections_n2r.txt

############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals used for the connections to the Debug Connector
#             -=============------------------------------------------======================
#
#
#     Original Rev. 28-Mar-2012
#              Rev. 28-Mar-2013 find location for these 10x signals without interfering with backplane inputs
#              Rev: 30-May-2013 BF debug connections were re-arranged after the layout of the backplane inputs
#  Most Recent Rev: 10-Jul-2013 Reorder pin assignment for straight route near debug connector
#
#  Signal Nets referenced in this file:
#  ------------------------------------
#
#   BF_DEBUG_n            (n=0:9)  10x spare connections from the BF FPGA to debug connector J14
#
############################################################################################


# 10x signals are going to the Debug Connector on layer 6
# These signals are listed in west to east order as they come out of the FPGA on layer 6
# The order of the BF_DEBUG_n nets may be adjusted to optimize access near J14

NET  'BF_DEBUG_0'                      U1-B27          #> F06 #> T06        B27  IO_L7P_38
NET  'BF_DEBUG_1'                      U1-M21          #> F06 #> T06        M21  IO_L10N_MRCC_38
NET  'BF_DEBUG_2'                      U1-C26          #> F06 #> T06        C26  IO_L13P_38
NET  'BF_DEBUG_3'                      U1-N21          #> F06 #> T06        N21  IO_L10P_MRCC_38
NET  'BF_DEBUG_4'                      U1-D27          #> F06 #> T06        D27  IO_L1N_38
NET  'BF_DEBUG_5'                      U1-M19          #> F06 #> T06        M19  IO_L9P_MRCC_38
NET  'BF_DEBUG_6'                      U1-C28          #> F06 #> T06        C28  IO_L3P_38
NET  'BF_DEBUG_7'                      U1-M22          #> F06 #> T06        M22  IO_L14P_38
NET  'BF_DEBUG_8'                      U1-B28          #> F06 #> T06        B28  IO_L3N_38
NET  'BF_DEBUG_9'                      U1-J23          #> F06 #> T06        J23  IO_L8P_SRCC_38

# note: other Select IO pins on IO Bank 38 are used for connections to the BSPT FPGA
#       cf. base_function_25_bspt_connections_n2r.txt


############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals used for all unused and Not Connected MGT IO pins
#             -=============-----------------------------------------====================----------
#
#
#     Original Rev. 16-Jan-2013  All 1760 pins on the Base function FPGA will have a net assigned
#
#              Rev. 26-Apr-2013  The Quad 117 Receiver inputs are now used
#                                  for the 4 used for SFP Receiver signals.
#
#
#
#  On the Base Function FPGA  connect ALL of the
#  UN-Used Tranceiver IO Pins to single point nets.
#
#  Signal Nets referenced in this file:
#  ------------------------------------
#
#  'No_Conn_BF_xxxx' are the unique net names assigned to these MGT IO signals
#   where "xxxx" is the fpga MGT IO signal name
#
############################################################################################





################
# Receivers
################

# All Receiver Channels from MGT Quad 110 are unused

NET  'No_Conn_BF_MGTRXP0_110'   U1-BB7          # 110  BB7  MGTRXP0_110
NET  'No_Conn_BF_MGTRXN0_110'   U1-BB8          # 110  BB8  MGTRXN0_110
NET  'No_Conn_BF_MGTRXP1_110'   U1-BA5          # 110  BA5  MGTRXP1_110
NET  'No_Conn_BF_MGTRXN1_110'   U1-BA6          # 110  BA6  MGTRXN1_110
NET  'No_Conn_BF_MGTRXP2_110'   U1-AY7          # 110  AY7  MGTRXP2_110
NET  'No_Conn_BF_MGTRXN2_110'   U1-AY8          # 110  AY8  MGTRXN2_110
NET  'No_Conn_BF_MGTRXP3_110'   U1-AW5          # 110  AW5  MGTRXP3_110
NET  'No_Conn_BF_MGTRXN3_110'   U1-AW6          # 110  AW6  MGTRXN3_110

# All Receiver Channels from MGT Quad 111 are unused

NET  'No_Conn_BF_MGTRXP0_111'   U1-AV7          # 111  AV7  MGTRXP0_111
NET  'No_Conn_BF_MGTRXN0_111'   U1-AV8          # 111  AV8  MGTRXN0_111
NET  'No_Conn_BF_MGTRXP1_111'   U1-AU5          # 111  AU5  MGTRXP1_111
NET  'No_Conn_BF_MGTRXN1_111'   U1-AU6          # 111  AU6  MGTRXN1_111
NET  'No_Conn_BF_MGTRXP2_111'   U1-AR5          # 111  AR5  MGTRXP2_111
NET  'No_Conn_BF_MGTRXN2_111'   U1-AR6          # 111  AR6  MGTRXN2_111
NET  'No_Conn_BF_MGTRXP3_111'   U1-AP7          # 111  AP7  MGTRXP3_111
NET  'No_Conn_BF_MGTRXN3_111'   U1-AP8          # 111  AP8  MGTRXN3_111

# All Receiver Channels from MGT Quad 112 are unused

NET  'No_Conn_BF_MGTRXP0_112'   U1-AN5          # 112  AN5  MGTRXP0_112
NET  'No_Conn_BF_MGTRXN0_112'   U1-AN6          # 112  AN6  MGTRXN0_112
NET  'No_Conn_BF_MGTRXP1_112'   U1-AM7          # 112  AM7  MGTRXP1_112
NET  'No_Conn_BF_MGTRXN1_112'   U1-AM8          # 112  AM8  MGTRXN1_112
NET  'No_Conn_BF_MGTRXP2_112'   U1-AL5          # 112  AL5  MGTRXP2_112
NET  'No_Conn_BF_MGTRXN2_112'   U1-AL6          # 112  AL6  MGTRXN2_112
NET  'No_Conn_BF_MGTRXP3_112'   U1-AJ5          # 112  AJ5  MGTRXP3_112
NET  'No_Conn_BF_MGTRXN3_112'   U1-AJ6          # 112  AJ6  MGTRXN3_112

# All Receiver Channels from MGT Quad 113 are unused

NET  'No_Conn_BF_MGTRXP0_113'   U1-AG5          # 113  AG5  MGTRXP0_113
NET  'No_Conn_BF_MGTRXN0_113'   U1-AG6          # 113  AG6  MGTRXN0_113
NET  'No_Conn_BF_MGTRXP1_113'   U1-AF3          # 113  AF3  MGTRXP1_113
NET  'No_Conn_BF_MGTRXN1_113'   U1-AF4          # 113  AF4  MGTRXN1_113
NET  'No_Conn_BF_MGTRXP2_113'   U1-AE5          # 113  AE5  MGTRXP2_113
NET  'No_Conn_BF_MGTRXN2_113'   U1-AE6          # 113  AE6  MGTRXN2_113
NET  'No_Conn_BF_MGTRXP3_113'   U1-AD3          # 113  AD3  MGTRXP3_113
NET  'No_Conn_BF_MGTRXN3_113'   U1-AD4          # 113  AD4  MGTRXN3_113
NET  'No_Conn_BF_MGTRXP0_114'   U1-AC5          # 114  AC5  MGTRXP0_114

# All Receiver Channels from MGT Quad 114 are unused

NET  'No_Conn_BF_MGTRXN0_114'   U1-AC6          # 114  AC6  MGTRXN0_114
NET  'No_Conn_BF_MGTRXP1_114'   U1-AB3          # 114  AB3  MGTRXP1_114
NET  'No_Conn_BF_MGTRXN1_114'   U1-AB4          # 114  AB4  MGTRXN1_114
NET  'No_Conn_BF_MGTRXP2_114'   U1-AA5          # 114  AA5  MGTRXP2_114
NET  'No_Conn_BF_MGTRXN2_114'   U1-AA6          # 114  AA6  MGTRXN2_114
NET  'No_Conn_BF_MGTRXP3_114'   U1-Y3           # 114  Y3  MGTRXP3_114
NET  'No_Conn_BF_MGTRXN3_114'   U1-Y4           # 114  Y4  MGTRXN3_114
NET  'No_Conn_BF_MGTRXP0_115'   U1-W5           # 115  W5  MGTRXP0_115

# All Receiver Channels from MGT Quad 115 are unused

NET  'No_Conn_BF_MGTRXN0_115'    U1-W6           # 115  W6  MGTRXN0_115
NET  'No_Conn_BF_MGTRXP1_115'    U1-V3           # 115  V3  MGTRXP1_115
NET  'No_Conn_BF_MGTRXN1_115'    U1-V4           # 115  V4  MGTRXN1_115
NET  'No_Conn_BF_MGTRXP2_115'    U1-U5           # 115  U5  MGTRXP2_115
NET  'No_Conn_BF_MGTRXN2_115'    U1-U6           # 115  U6  MGTRXN2_115
NET  'No_Conn_BF_MGTRXP3_115'    U1-R5           # 115  R5  MGTRXP3_115
NET  'No_Conn_BF_MGTRXN3_115'    U1-R6           # 115  R6  MGTRXN3_115

# All Receiver Channels from MGT Quad 116 are unused

NET  'No_Conn_BF_MGTRXP0_116'    U1-P7           # 116  P7  MGTRXP0_116
NET  'No_Conn_BF_MGTRXN0_116'    U1-P8           # 116  P8  MGTRXN0_116
NET  'No_Conn_BF_MGTRXP1_116'    U1-N5           # 116  N5  MGTRXP1_116
NET  'No_Conn_BF_MGTRXN1_116'    U1-N6           # 116  N6  MGTRXN1_116
NET  'No_Conn_BF_MGTRXP2_116'    U1-L5           # 116  L5  MGTRXP2_116
NET  'No_Conn_BF_MGTRXN2_116'    U1-L6           # 116  L6  MGTRXN2_116
NET  'No_Conn_BF_MGTRXP3_116'    U1-J5           # 116  J5  MGTRXP3_116
NET  'No_Conn_BF_MGTRXN3_116'    U1-J6           # 116  J6  MGTRXN3_116


# All Receiver Channels in MGT Quad 117 are
# now used for the SFP Receiver signals.

##NET  'No_Conn_BF_MGTRXP0_117'    U1-<MGTRXP0_117>                             # 117  H7
##NET  'No_Conn_BF_MGTRXN0_117'    U1-<MGTRXN0_117>                             # 117  H8
##NET  'No_Conn_BF_MGTRXP1_117'    U1-<MGTRXP1_117>                             # 117  G5
##NET  'No_Conn_BF_MGTRXN1_117'    U1-<MGTRXN1_117>                             # 117  G6
##NET  'No_Conn_BF_MGTRXP2_117'    U1-<MGTRXP2_117>                             # 117  F7
##NET  'No_Conn_BF_MGTRXN2_117'    U1-<MGTRXN2_117>                             # 117  F8
##NET  'No_Conn_BF_MGTRXP3_117'    U1-<MGTRXP3_117>                             # 117  E5
##NET  'No_Conn_BF_MGTRXN3_117'    U1-<MGTRXN3_117>                             # 117  E6


# All Receiver Channels from MGT Quad 118 are unused

NET  'No_Conn_BF_MGTRXP0_118'    U1-D7           # 118  D7  MGTRXP0_118
NET  'No_Conn_BF_MGTRXN0_118'    U1-D8           # 118  D8  MGTRXN0_118
NET  'No_Conn_BF_MGTRXP1_118'    U1-C5           # 118  C5  MGTRXP1_118
NET  'No_Conn_BF_MGTRXN1_118'    U1-C6           # 118  C6  MGTRXN1_118
NET  'No_Conn_BF_MGTRXP2_118'    U1-B7           # 118  B7  MGTRXP2_118
NET  'No_Conn_BF_MGTRXN2_118'    U1-B8           # 118  B8  MGTRXN2_118
NET  'No_Conn_BF_MGTRXP3_118'    U1-A5           # 118  A5  MGTRXP3_118
NET  'No_Conn_BF_MGTRXN3_118'    U1-A6           # 118  A6  MGTRXN3_118



################
# Transmitters
################

# All Tramsmitter Channels from MGT Quad 110 to 115 are used to drive the miniPOD transmitters
# Those nets are defined in base_function_gtx_transmitters_n2r.txt
#

# All Tramsmitter Channels from MGT Quad 116 are unused

NET  'No_Conn_BF_MGTTXP0_116'    U1-N1           # 116  N1  MGTTXP0_116
NET  'No_Conn_BF_MGTTXN0_116'    U1-N2           # 116  N2  MGTTXN0_116
NET  'No_Conn_BF_MGTTXP1_116'    U1-M3           # 116  M3  MGTTXP1_116
NET  'No_Conn_BF_MGTTXN1_116'    U1-M4           # 116  M4  MGTTXN1_116
NET  'No_Conn_BF_MGTTXP2_116'    U1-L1           # 116  L1  MGTTXP2_116
NET  'No_Conn_BF_MGTTXN2_116'    U1-L2           # 116  L2  MGTTXN2_116
NET  'No_Conn_BF_MGTTXP3_116'    U1-K3           # 116  K3  MGTTXP3_116
NET  'No_Conn_BF_MGTTXN3_116'    U1-K4           # 116  K4  MGTTXN3_116

# All Tramsmitter Channels from MGT Quad 117 are unused

NET  'No_Conn_BF_MGTTXP0_117'    U1-J1           # 117  J1  MGTTXP0_117
NET  'No_Conn_BF_MGTTXN0_117'    U1-J2           # 117  J2  MGTTXN0_117
NET  'No_Conn_BF_MGTTXP1_117'    U1-H3           # 117  H3  MGTTXP1_117
NET  'No_Conn_BF_MGTTXN1_117'    U1-H4           # 117  H4  MGTTXN1_117
NET  'No_Conn_BF_MGTTXP2_117'    U1-G1           # 117  G1  MGTTXP2_117
NET  'No_Conn_BF_MGTTXN2_117'    U1-G2           # 117  G2  MGTTXN2_117
NET  'No_Conn_BF_MGTTXP3_117'    U1-F3           # 117  F3  MGTTXP3_117
NET  'No_Conn_BF_MGTTXN3_117'    U1-F4           # 117  F4  MGTTXN3_117

# Two of the Tramsmitter channels from MGT Quad 118 are used for the g-link output
# Those nets are defined in base_function_low_speed_daq_roi_data_out_n2r.txt
# The other two channels are unused

NET  'No_Conn_BF_MGTTXP0_118'    U1-E1           # 118  E1  MGTTXP0_118
NET  'No_Conn_BF_MGTTXN0_118'    U1-E2           # 118  E2  MGTTXN0_118
NET  'No_Conn_BF_MGTTXP1_118'    U1-D3           # 118  D3  MGTTXP1_118
NET  'No_Conn_BF_MGTTXN1_118'    U1-D4           # 118  D4  MGTTXN1_118



############################################################################################
#
#                            CMX Net-to-Resource File for the
#              Base Function FPGA IO signals for all unused and Not Connected Select IO pins
#             -=============------------------------------------=======================-------
#
#
#     Original Rev. 28-Nov-2012 Initial collection of all unused pins
#              Rev. 30-Nov-2012 Studying the set of unused pins generated 3 allocation improvements
#              Rev. 11-Dec-2012 Sort unused pins in alphabetical order
#              Rev. 16-Jan-2013 Adopt NET naming convention to pre-pend "No_Conn_" for unused pins,
#                               replace pin number with IO signal name to make unique net names
#                               and add "Select IO" to file name: base_function_unconnected_select_io_pins_n2r.txt
#                   03-Apr-2013 Remove pins now assigned to connections to Board Support FPGA, Debug Connector,
#                               BF to TP S-Link, TTC signals, and adding one Global Clock.
#              Rev: 17-May-2013 Rearranged P12_18:21 to solve layer 9 boundary conflict (P08:11 vs P12:14)
#                               which also involved putting pin AV23 into use and dropping AY24
#              Rev: 30-May-2013 P20 now unused while N19 now used (after BF to BSPT and debug connections rework)
#  Most Recent Rev: 03-Jun-2013 AE35 is now used and AF41 now unused (swap pin used for cable IO signal 83)
#
#  Signal Nets referenced in this file:
#  ------------------------------------
#
#  'No_Conn_BF_xxxx' are the unique net names assigned to these Select IO signals
#   where "xxxx" is the fpga Select IO signal name
#
############################################################################################



# Unused pins from IO bank 12
#############################
# note: This bank is otherwise used for the CTP output

NET  'No_Conn_BF_IO_L9N_MRCC_12'             U1-AN36         # 12  AN36  IO_L9N_MRCC_12
NET  'No_Conn_BF_IO_L10N_MRCC_12'            U1-AP35         # 12  AP35  IO_L10N_MRCC_12
NET  'No_Conn_BF_IO_L16N_12'                 U1-AT34         # 12  AT34  IO_L16N_12



# Unused pins from IO bank 13
#############################
# note: This bank is otherwise used for the CTP output and On-Card Bus

NET  'No_Conn_BF_IO_L9P_MRCC_13'             U1-AL34         # 13  AL34  IO_L9P_MRCC_13


# Unused pins from IO bank 14
#############################
# note: This bank is otherwise used for the On-Card Bus

NET  'No_Conn_BF_IO_L18P_14'                 U1-AF32         # 14  AF32  IO_L18P_14


# Unused pins from IO bank 15
#############################
# note: This bank is otherwise used for the Cable IO
#       and System Monitor differential User Inputs

NET  'No_Conn_BF_IO_L18N_15'                 U1-AC33         # 15  AC33  IO_L18N_15
NET  'No_Conn_BF_IO_L18P_15'                 U1-AC34         # 15  AC34  IO_L18P_15
NET  'No_Conn_BF_IO_L9P_MRCC_15'             U1-AD32         # 15  AD32  IO_L9P_MRCC_15
NET  'No_Conn_BF_IO_L14N_VREF_15'            U1-AD35         # 15  AD35  IO_L14N_VREF_15
NET  'No_Conn_BF_IO_L9N_MRCC_15'             U1-AE32         # 15  AE32  IO_L9N_MRCC_15
NET  'No_Conn_BF_IO_L0P_15'                  U1-AE34         # 15  AE34  IO_L0P_15
NET  'No_Conn_BF_IO_L17N_15'                 U1-AF41         # 15  AF41  IO_L17N_15


# Unused pins from IO bank 16
#############################
# note: This bank is otherwise used for the Cable IO

NET  'No_Conn_BF_IO_L16P_16'                 U1-U32          # 16   U32  IO_L16P_16
NET  'No_Conn_BF_IO_L16N_16'                 U1-U33          # 16   U33  IO_L16N_16
NET  'No_Conn_BF_IO_L10N_MRCC_16'            U1-U34          # 16   U34  IO_L10N_MRCC_16
NET  'No_Conn_BF_IO_L18P_16'                 U1-V33          # 16   V33  IO_L18P_16
NET  'No_Conn_BF_IO_L10P_MRCC_16'            U1-V34          # 16   V34  IO_L10P_MRCC_16
NET  'No_Conn_BF_IO_L18N_16'                 U1-W33          # 16   W33  IO_L18N_16
NET  'No_Conn_BF_IO_L12N_VRP_16'             U1-Y32          # 16   Y32  IO_L12N_VRP_16
NET  'No_Conn_BF_IO_L9N_MRCC_16'             U1-Y33          # 16   Y33  IO_L9N_MRCC_16

# Unused pins from IO bank 17
#############################
# note: This bank is otherwise used for the Cable IO

NET  'No_Conn_BF_IO_L4N_VREF_17'             U1-N34          # 17   N34  IO_L4N_VREF_17
NET  'No_Conn_BF_IO_L4P_17'                  U1-N35          # 17   N35  IO_L4P_17
NET  'No_Conn_BF_IO_L9N_MRCC_17'             U1-P35          # 17   P35  IO_L9N_MRCC_17
NET  'No_Conn_BF_IO_L14N_VREF_17'            U1-R34          # 17   R34  IO_L14N_VREF_17
NET  'No_Conn_BF_IO_L18P_17'                 U1-T34          # 17   T34  IO_L18P_17


# Unused pins from IO bank 21
#############################
# note: This bank is otherwise used for Backplane Inputs P10 and P11

NET  'No_Conn_BF_IO_L5P_21'                  U1-AJ23         # 21  AJ23  IO_L5P_21
NET  'No_Conn_BF_IO_L13N_21'                 U1-AL24         # 21  AL24  IO_L13N_21


# Unused pins from IO bank 22
#############################
# note: This bank is otherwise used for Backplane Inputs P08, P09, P10 and P11

NET  'No_Conn_BF_IO_L9N_MRCC_22'             U1-AL26         # 22  AL26  IO_L9N_MRCC_22


# Unused pins from IO bank 23
#############################
# note: This bank is otherwise used for Backplane Inputs P08 and P09

NET  'No_Conn_BF_IO_L14P_23'                 U1-AG28         # 23  AG28  IO_L14P_23
NET  'No_Conn_BF_IO_L10P_MRCC_23'            U1-AH24         # 23  AH24  IO_L10P_MRCC_23
NET  'No_Conn_BF_IO_L10N_MRCC_23'            U1-AH25         # 23  AH25  IO_L10N_MRCC_23
NET  'No_Conn_BF_IO_L18N_23'                 U1-AH26         # 23  AH26  IO_L18N_23
NET  'No_Conn_BF_IO_L18P_23'                 U1-AJ26         # 23  AJ26  IO_L18P_23
NET  'No_Conn_BF_IO_L16N_23'                 U1-AJ27         # 23  AJ27  IO_L16N_23
NET  'No_Conn_BF_IO_L9N_MRCC_23'             U1-AK25         # 23  AK25  IO_L9N_MRCC_23
NET  'No_Conn_BF_IO_L8P_SRCC_23'             U1-AK28         # 23  AK28  IO_L8P_SRCC_23
NET  'No_Conn_BF_IO_L1N_23'                  U1-AL31         # 23  AL31  IO_L1N_23


# Unused pins from IO bank 24
#############################
# This IO bank has not yet been assigned

NET  'No_Conn_BF_IO_L5P_D9_24'               U1-N33          # 24   N33  IO_L5P_D9_24
NET  'No_Conn_BF_IO_L7P_D5_24'               U1-P32          # 24   P32  IO_L7P_D5_24
NET  'No_Conn_BF_IO_L5N_D8_24'               U1-P33          # 24   P33  IO_L5N_D8_24
NET  'No_Conn_BF_IO_L3N_D12_24'              U1-R30          # 24   R30  IO_L3N_D12_24
NET  'No_Conn_BF_IO_L11P_SRCC_24'            U1-R32          # 24   R32  IO_L11P_SRCC_24
NET  'No_Conn_BF_IO_L7N_D4_24'               U1-R33          # 24   R33  IO_L7N_D4_24
NET  'No_Conn_BF_IO_L3P_D13_24'              U1-T30          # 24   T30  IO_L3P_D13_24
NET  'No_Conn_BF_IO_L13P_D1_FS1_24'          U1-T31          # 24   T31  IO_L13P_D1_FS1_24
NET  'No_Conn_BF_IO_L11N_SRCC_24'            U1-T32          # 24   T32  IO_L11N_SRCC_24
NET  'No_Conn_BF_IO_L13N_D0_FS0_24'          U1-U31          # 24   U31  IO_L13N_D0_FS0_24
NET  'No_Conn_BF_IO_L1N_GC_24'               U1-V30          # 24   V30  IO_L1N_GC_24
NET  'No_Conn_BF_IO_L15P_FWE_B_24'           U1-V31          # 24   V31  IO_L15P_FWE_B_24
NET  'No_Conn_BF_IO_L1P_GC_24'               U1-W30          # 24   W30  IO_L1P_GC_24
NET  'No_Conn_BF_IO_L15N_RS1_24'             U1-W31          # 24   W31  IO_L15N_RS1_24
NET  'No_Conn_BF_IO_L9P_MRCC_24'             U1-Y30          # 24   Y30  IO_L9P_MRCC_24
NET  'No_Conn_BF_IO_L9N_MRCC_24'             U1-AA30         # 24  AA30  IO_L9N_MRCC_24
NET  'No_Conn_BF_IO_L10P_MRCC_24'            U1-AA31         # 24  AA31  IO_L10P_MRCC_24
NET  'No_Conn_BF_IO_L10N_MRCC_24'            U1-AB31         # 24  AB31  IO_L10N_MRCC_24
NET  'No_Conn_BF_IO_L17N_VRP_24'             U1-AC30         # 24  AC30  IO_L17N_VRP_24
NET  'No_Conn_BF_IO_L17P_VRN_24'             U1-AC31         # 24  AC31  IO_L17P_VRN_24
NET  'No_Conn_BF_IO_L19N_24'                 U1-AD30         # 24  AD30  IO_L19N_24
NET  'No_Conn_BF_IO_L19P_24'                 U1-AD31         # 24  AD31  IO_L19P_24
NET  'No_Conn_BF_IO_L0P_GC_24'               U1-AE30         # 24  AE30  IO_L0P_GC_24
NET  'No_Conn_BF_IO_L0N_GC_24'               U1-AF30         # 24  AF30  IO_L0N_GC_24
NET  'No_Conn_BF_IO_L2N_D14_24'              U1-AF31         # 24  AF31  IO_L2N_D14_24
NET  'No_Conn_BF_IO_L18N_24'                 U1-AG29         # 24  AG29  IO_L18N_24
NET  'No_Conn_BF_IO_L4N_VREF_D10_24'         U1-AG31         # 24  AG31  IO_L4N_VREF_D10_24
NET  'No_Conn_BF_IO_L2P_D15_24'              U1-AG32         # 24  AG32  IO_L2P_D15_24
NET  'No_Conn_BF_IO_L18P_24'                 U1-AH29         # 24  AH29  IO_L18P_24
NET  'No_Conn_BF_IO_L14P_FCS_B_24'           U1-AH30         # 24  AH30  IO_L14P_FCS_B_24
NET  'No_Conn_BF_IO_L4P_D11_24'              U1-AH31         # 24  AH31  IO_L4P_D11_24
NET  'No_Conn_BF_IO_L6N_D6_24'               U1-AH33         # 24  AH33  IO_L6N_D6_24
NET  'No_Conn_BF_IO_L14N_VREF_FOE_B_MOSI_24' U1-AJ30         # 24  AJ30  IO_L14N_VREF_FOE_B_MOSI_24
NET  'No_Conn_BF_IO_L16P_RS0_24'             U1-AJ31         # 24  AJ31  IO_L16P_RS0_24
NET  'No_Conn_BF_IO_L8N_SRCC_24'             U1-AJ32         # 24  AJ32  IO_L8N_SRCC_24
NET  'No_Conn_BF_IO_L6P_D7_24'               U1-AJ33         # 24  AJ33  IO_L6P_D7_24
NET  'No_Conn_BF_IO_L16N_CSO_B_24'           U1-AK30         # 24  AK30  IO_L16N_CSO_B_24
NET  'No_Conn_BF_IO_L12P_D3_24'              U1-AK32         # 24  AK32  IO_L12P_D3_24
NET  'No_Conn_BF_IO_L8P_SRCC_24'             U1-AK33         # 24  AK33  IO_L8P_SRCC_24
NET  'No_Conn_BF_IO_L12N_D2_FS2_24'          U1-AL32         # 24  AL32  IO_L12N_D2_FS2_24


# Unused pins from IO bank 25
#############################
# note: This IO bank is otherwise used for one differential global clock input for a 40.08 MHz logic clock
#       and two differential signals carrying the S-link return channels to the TP FPGA
#       and two pins are receiving TTC information

NET  'No_Conn_BF_IO_L6N_25'                  U1-H38          # 25   H38  IO_L6N_25
NET  'No_Conn_BF_IO_L4N_VREF_25'             U1-J36          # 25   J36  IO_L4N_VREF_25
NET  'No_Conn_BF_IO_L4P_25'                  U1-J37          # 25   J37  IO_L4P_25
NET  'No_Conn_BF_IO_L8N_SRCC_25'             U1-J38          # 25   J38  IO_L8N_SRCC_25
NET  'No_Conn_BF_IO_L0N_25'                  U1-K32          # 25   K32  IO_L0N_25
NET  'No_Conn_BF_IO_L0P_25'                  U1-K33          # 25   K33  IO_L0P_25
NET  'No_Conn_BF_IO_L2N_25'                  U1-K34          # 25   K34  IO_L2N_25
NET  'No_Conn_BF_IO_L2P_25'                  U1-K35          # 25   K35  IO_L2P_25
NET  'No_Conn_BF_IO_L11P_SRCC_25'            U1-K37          # 25   K37  IO_L11P_SRCC_25
NET  'No_Conn_BF_IO_L8P_SRCC_25'             U1-K38          # 25   K38  IO_L8P_SRCC_25
NET  'No_Conn_BF_IO_L16P_VRN_25'             U1-K39          # 25   K39  IO_L16P_VRN_25
NET  'No_Conn_BF_IO_L3P_25'                  U1-L31          # 25   L31  IO_L3P_25
NET  'No_Conn_BF_IO_L3N_25'                  U1-L32          # 25   L32  IO_L3N_25
NET  'No_Conn_BF_IO_L13P_25'                 U1-L34          # 25   L34  IO_L13P_25
NET  'No_Conn_BF_IO_L7P_25'                  U1-L35          # 25   L35  IO_L7P_25
NET  'No_Conn_BF_IO_L7N_25'                  U1-L36          # 25   L36  IO_L7N_25
NET  'No_Conn_BF_IO_L11N_SRCC_25'            U1-L37          # 25   L37  IO_L11N_SRCC_25
NET  'No_Conn_BF_IO_L17P_25'                 U1-M31          # 25   M31  IO_L17P_25
NET  'No_Conn_BF_IO_L15N_25'                 U1-M32          # 25   M32  IO_L15N_25
NET  'No_Conn_BF_IO_L15P_25'                 U1-M33          # 25   M33  IO_L15P_25
NET  'No_Conn_BF_IO_L13N_25'                 U1-M34          # 25   M34  IO_L13N_25
NET  'No_Conn_BF_IO_L1P_25'                  U1-N28          # 25   N28  IO_L1P_25
NET  'No_Conn_BF_IO_L5P_25'                  U1-N29          # 25   N29  IO_L5P_25
NET  'No_Conn_BF_IO_L5N_25'                  U1-N30          # 25   N30  IO_L5N_25
NET  'No_Conn_BF_IO_L17N_25'                 U1-N31          # 25   N31  IO_L17N_25
NET  'No_Conn_BF_IO_L9P_MRCC_25'             U1-P27          # 25   P27  IO_L9P_MRCC_25
NET  'No_Conn_BF_IO_L1N_25'                  U1-P28          # 25   P28  IO_L1N_25
NET  'No_Conn_BF_IO_L19P_GC_25'              U1-P30          # 25   P30  IO_L19P_GC_25
NET  'No_Conn_BF_IO_L19N_GC_25'              U1-P31          # 25   P31  IO_L19N_GC_25
NET  'No_Conn_BF_IO_L9N_MRCC_25'             U1-R27          # 25   R27  IO_L9N_MRCC_25
NET  'No_Conn_BF_IO_L10P_MRCC_25'            U1-R28          # 25   R28  IO_L10P_MRCC_25
NET  'No_Conn_BF_IO_L10N_MRCC_25'            U1-R29          # 25   R29  IO_L10N_MRCC_25


# Unused pins from IO bank 26
#############################
# note: This bank is otherwise used for Backplane Inputs P06 and P07

NET  'No_Conn_BF_IO_L2P_26'                  U1-J35          # 26   J35  IO_L2P_26


# Unused pins from IO bank 27
#############################
# note: This bank is otherwise used for Backplane Inputs P04, P05, P06 and P07

NET  'No_Conn_BF_IO_L16N_27'                 U1-J30          # 27   J30  IO_L16N_27
NET  'No_Conn_BF_IO_L14P_27'                 U1-J32          # 27   J32  IO_L14P_27
NET  'No_Conn_BF_IO_L12N_VRP_27'             U1-J33          # 27   J33  IO_L12N_VRP_27
NET  'No_Conn_BF_IO_L18N_27'                 U1-K30          # 27   K30  IO_L18N_27
NET  'No_Conn_BF_IO_L9N_MRCC_27'             U1-L30          # 27   L30  IO_L9N_MRCC_27
NET  'No_Conn_BF_IO_L10P_MRCC_27'            U1-M28          # 27   M28  IO_L10P_MRCC_27


# Unused pins from IO bank 28
#############################
# note: This bank is otherwise used for Backplane Inputs P04 and P05

NET  'No_Conn_BF_IO_L3N_28'                  U1-F30          # 28   F30  IO_L3N_28
NET  'No_Conn_BF_IO_L16P_28'                 U1-J28          # 28   J28  IO_L16P_28
NET  'No_Conn_BF_IO_L16N_28'                 U1-K28          # 28   K28  IO_L16N_28
NET  'No_Conn_BF_IO_L19N_28'                 U1-M27          # 28   M27  IO_L19N_28
NET  'No_Conn_BF_IO_L8P_SRCC_28'             U1-R25          # 28   R25  IO_L8P_SRCC_28


# Unused pins from IO bank 32
#############################
# note: This bank is otherwise used for Backplane Inputs P12 and P13

NET  'No_Conn_BF_IO_L9N_MRCC_32'             U1-AJ20         # 32  AJ20  IO_L9N_MRCC_32
NET  'No_Conn_BF_IO_L9P_MRCC_32'             U1-AJ21         # 32  AJ21  IO_L9P_MRCC_32
NET  'No_Conn_BF_IO_L5P_32'                  U1-AL20         # 32  AL20  IO_L5P_32
NET  'No_Conn_BF_IO_L7P_32'                  U1-AN20         # 32  AN20  IO_L7P_32
NET  'No_Conn_BF_IO_L0P_32'                  U1-AY24         # 32  AY24  IO_L0P_32


# Unused pins from IO bank 33
#############################
# note: This bank is otherwise used for Backplane Inputs P12, P13, P14 and P15

NET  'No_Conn_BF_IO_L10N_MRCC_33'            U1-AJ15         # 33  AJ15  IO_L10N_MRCC_33
NET  'No_Conn_BF_IO_L6P_33'                  U1-AJ17         # 33  AJ17  IO_L6P_33
NET  'No_Conn_BF_IO_L18N_33'                 U1-AJ18         # 33  AJ18  IO_L18N_33


# Unused pins from IO bank 34
#############################
# note: This bank is otherwise used for Backplane Inputs P14 and P15
# and two differential global clock inputs for 40.08 and 320.64 MHz logic clocks

# All pins in this bank are used


# Unused pins from IO bank 35
#############################
# note: This bank is otherwise used for Backplane Inputs P00 and P01
#       and System Monitor differential User Inputs

# All pins in this bank are used


# Unused pins from IO bank 36
#############################
# note: This bank is otherwise used for Backplane Inputs P00, P01, P02 and P03

NET  'No_Conn_BF_IO_L10N_MRCC_36'            U1-P16          # 36   P16  IO_L10N_MRCC_36


# Unused pins from IO bank 37
#############################
# note: This bank is otherwise used for Backplane Inputs P02 and P03

NET  'No_Conn_BF_IO_L16P_37'                 U1-K20          # 37   K20  IO_L16P_37
NET  'No_Conn_BF_IO_L16N_37'                 U1-L20          # 37   L20  IO_L16N_37
NET  'No_Conn_BF_IO_L9N_MRCC_37'             U1-L21          # 37   L21  IO_L9N_MRCC_37


# Unused pins from IO bank 38
#############################
# note: This IO bank is otherwise used for connections to the Board Support FPGA
#       and connections to the Debug Connector

NET  'No_Conn_BF_IO_L5P_38'                  U1-G26          # 38   G26  IO_L5P_38
NET  'No_Conn_BF_IO_L0P_38'                  U1-H24          # 38   H24  IO_L0P_38
NET  'No_Conn_BF_IO_L4N_VREF_38'             U1-H25          # 38   H25  IO_L4N_VREF_38
NET  'No_Conn_BF_IO_L4P_38'                  U1-H26          # 38   H26  IO_L4P_38
NET  'No_Conn_BF_IO_L6N_38'                  U1-J25          # 38   J25  IO_L6N_38
NET  'No_Conn_BF_IO_L12N_VRP_38'             U1-K24          # 38   K24  IO_L12N_VRP_38
NET  'No_Conn_BF_IO_L6P_38'                  U1-K25          # 38   K25  IO_L6P_38
NET  'No_Conn_BF_IO_L12P_VRN_38'             U1-L24          # 38   L24  IO_L12P_VRN_38
NET  'No_Conn_BF_IO_L14N_VREF_38'            U1-M23          # 38   M23  IO_L14N_VREF_38
NET  'No_Conn_BF_IO_L16N_38'                 U1-M24          # 38   M24  IO_L16N_38
NET  'No_Conn_BF_IO_L16P_38'                 U1-N23          # 38   N23  IO_L16P_38
NET  'No_Conn_BF_IO_L19P_38'                 U1-P20          # 38   P20  IO_L19P_38