-- *************************************************************************** -- Intel(R) Xeon(TM) Processor MP with up to 2-MB L3 Cache Core Boundary -- Scan Descriptor Language (BSDL) Model, Version 1.1 -- -- A-0 processor core stepping -- -- *************************************************************************** -- Information in this document is provided in connection with Intel products. -- No license, express or implied, by estoppel or otherwise, to any -- intellectual property rights is granted by this document. Except as -- provided in Intel's Terms and Conditions of Sale for such products, -- Intel assumes no liability whatsoever, and Intel disclaims any express or -- implied warranty, relating to sale and/or use of Intel products including -- liability or warranties relating to fitness for a particular purpose, -- merchantability, or infringement of any patent, copyright or other -- intellectual property right. Intel products are not intended for use in -- medical, life saving, or life sustaining applications. -- -- Intel may make changes to specifications and product descriptions at any -- time, without notice. -- -- The Intel(R) Xeon(TM) Processor MP with up to 2-MB L3 Cache may contain -- design defects or errors known as errata which may cause the product -- to deviate from published specifications. Current characterized errata -- are available on request. -- -- Contact your local Intel sales office or your distributor to obtain the -- latest specifications and before placing your product order. -- -- Intel, Pentium, and Intel Xeon are trademarks or registered trademarks of -- Intel Corporation and its subsidiaries in the United States and other -- countries. -- -- *Other names and brands may be claimed as the property of others. -- -- Copyright (c) 2002 Intel Corporation -- *************************************************************************** entity INTEL_XEON_MP_2MB_0 is generic(PHYSICAL_PIN_MAP : string := "INTEL_XEON_MP_2MB_PGAN"); port ( TDO : out bit; -- Diagnostic - tap data out TRST : in bit; -- Diagnostic - tap reset TMS : in bit; -- Diagnostic - tap mode select TDI : in bit; -- Diagnostic - tap data in TCK : in bit; -- Diagnostic - tap clock GTLREF2 : linkage bit; -- Analog Pin - LINT1 : in bit; -- APIC - Local Interrupt,NMI LINT0 : in bit; -- APIC - Local Interrupt,INT BPRI : in bit; -- Arbitration - Priority agent bus arbitration DEFER : in bit; -- Snoop - defer signal HITM : inout bit; -- Snoop - snoop hit modified HIT : inout bit; -- Snoop - snoop hit RS : in bit_vector(2 downto 0); -- Response status LOCK : inout bit; -- Arbitration - Locked transactions BR0 : inout bit; -- Arbitration - symmetric agent bus arbitration ADS : inout bit; -- Request - address strobe BNR : inout bit; -- Arbitration - block next request TRDY : in bit; -- Response - target ready DBSY : inout bit; -- Data - data bus busy DRDY : inout bit; -- Data - Data phase data ready REQ : inout bit_vector( 4 downto 0); -- Request - request command A : inout bit_vector(35 downto 3); -- Address bus ADSTB : inout bit_vector( 1 downto 0); -- Request - address bus strobe BR1 : in bit; -- Arbitration - symmetric bus arbitration BR2 : in bit; -- Arbitration - symmetric bus arbitration BR3 : in bit; -- Arbitration - symmetric bus arbitration AP : inout bit_vector( 1 downto 0); -- address/extended request parity RSP : in bit; -- Response - Response status parity BINIT : inout bit; -- Error - bus initialization MCERR : inout bit; -- Error - machine check error INIT : in bit; -- Exec Control - Processor initialization STPCLK : in bit; -- Pwr/Clk - processor stop clock control IERR : out bit; -- Error - internal processor error BPM : inout bit_vector( 5 downto 0); -- Diagnostic - proformance monitoring break points GTLREF3 : linkage bit; -- Analog Pin - VCCA : linkage bit; -- Pwr/Clk - Analog Vcc for PLL VSSA : linkage bit; -- Pwr/Clk - Analog Vcc for PLL and IOPLL VCCIOPLL : linkage bit; -- Pwr/Clk - Analog Vcc for I/O PLL PWRGOOD : in bit; -- Pwr/Clk - System Power Good SLP : in bit; -- Pwr/Clk - Sleep Pin RESET : in bit; -- Control - System Reset RSVD_W3 : in bit; -- RSVD GTLREF1 : linkage bit; -- Analog Pin - BCLK0 : in bit; -- Control - differential bus clock [N] BCLK1 : in bit; -- Control - differential bus clock [P] D : inout bit_vector(63 downto 0); -- Data - data bus DSTBN : inout bit_vector( 3 downto 0); -- Data - Data bus differential probe DSTBP : inout bit_vector( 3 downto 0); -- Data - Data bus differential probe DBI : inout bit_vector( 3 downto 0); -- Data - dynamic data bus inversion COMP : linkage bit_vector( 1 downto 0); -- Pwr/Clk - Used to configure the AGTL+ drivers DP : inout bit_vector( 3 downto 0); -- Data - data bus parity on 16-bit granularity RSVD_A15 : in bit; -- RSVD GTLREF0 : linkage bit; -- Analog Pin - VCCSENSE : linkage bit; -- Pwr/Clk - Sense the Vcc power plane VSSSENSE : linkage bit; -- Pwr/Clk - Sense the Vss power plane FERR : out bit; -- Compatibility - floating point error A20M : in bit; -- Compatibility - address 20 mask SMI : in bit; -- Compatibility - system management interrupt IGNNE : in bit; -- Compatibility - ignore numeric errors THERMTRIP : out bit; -- Pwr/Clk - thermal sensor PROCHOT : out bit; -- Pwr/Clk - thermal sensor BSEL0 : out bit; BSEL1 : out bit; ODTEN : in bit; RSVD_A1 : linkage bit; RSVD_A4 : linkage bit; RSVD_A16 : linkage bit; RSVD_A26 : linkage bit; RSVD_B1 : linkage bit; RSVD_C5 : linkage bit; RSVD_D25 : linkage bit; RSVD_Y3 : linkage bit; RSVD_Y27 : linkage bit; RSVD_Y28 : linkage bit; RSVD_AC1 : linkage bit; RSVD_AD1 : linkage bit; RSVD_AE4 : linkage bit; RSVD_AE15 : linkage bit; RSVD_AE16 : linkage bit; SKTOCC : linkage bit; SM_ALERT : out bit; SM_CLK : in bit; SM_DAT : inout bit; SM_EP_A0 : in bit; SM_EP_A1 : in bit; SM_EP_A2 : in bit; SM_TS1_A0 : in bit; SM_TS1_A1 : in bit; SM_VCC : linkage bit_vector(1 to 2); SM_WP : in bit; TESTHI0 : linkage bit; TESTHI1 : linkage bit; TESTHI2 : linkage bit; TESTHI3 : linkage bit; TESTHI4 : linkage bit; TESTHI5 : linkage bit; TESTHI6 : linkage bit; VCC : linkage bit_vector(1 to 190); VID0 : linkage bit; VID1 : linkage bit; VID2 : linkage bit; VID3 : linkage bit; VID4 : linkage bit; VSS : linkage bit_vector(1 to 189) ); use STD_1149_1_1994.all; use INTEL_XEON_MP_2MB_CELLS.all; attribute COMPONENT_CONFORMANCE of INTEL_XEON_MP_2MB_0 : entity is "STD_1149_1_1993" ; attribute PIN_MAP of INTEL_XEON_MP_2MB_0 : entity is PHYSICAL_PIN_MAP; constant INTEL_XEON_MP_2MB_PGAN : PIN_MAP_STRING := " TDO : E25," & " TRST : F24," & " TMS : A25," & " TDI : C24," & " TCK : E24," & " GTLREF2 : F23," & " LINT1 : G23," & " LINT0 : B24," & " BPRI : D23," & " DEFER : C23," & " HITM : A23," & " HIT : E22," & " RS : (F21, D22, E21), " & " LOCK : A17," & " BR0 : D20," & " ADS : D19," & " BNR : F20," & " TRDY : E19," & " DBSY : F18," & " DRDY : E18," & " REQ : (B22, C20, C21, B21, B19), " & -- REQ4, REQ3,...,REQ0 " A : (C8, C9, A7, A6, B7, C11, D12, E13, B8, " & -- A(35):A(27) " A9, D13, E14, C12, B11, B10, A10, F15, " & -- A(26):A(19) " D15, D16, C14, C15, A12, B13, B14, B16, " & -- A(18):A(11) " A13, D17, C17, A19, C18, B18, A20, A22), " & -- A(10):A(3) " ADSTB : (F14, F17), " & " BR1 : F12," & " BR2 : E11," & " BR3 : D10," & " AP : (D9, E10), " & " RSP : C6, " & " BINIT : F11," & " MCERR : D7, " & " INIT : D6, " & " STPCLK : D4, " & " IERR : E5, " & " BPM : (E4, E8, F5, E7, F8, F6) ," & " GTLREF3 : F9, " & " VCCA : AB4," & " VSSA : AA5," & " VCCIOPLL : AD4," & " PWRGOOD : AB7," & " SLP : AE6," & " RESET : Y8, " & " RSVD_W3 : W3, " & " GTLREF1 : W9," & " BCLK0 : Y4," & -- BCLK0 " BCLK1 : W5," & -- BCLK1 " D : (AB6, Y9, AA8, AC5, AC6, AE7, AD7, AC8, " & -- D63:D56 " AB10, AA10, AA11, AB13, AB12, AC14, AA14, AA13, " & -- D55:D48 " AC9, AD8, AD10, AE9, AC11, AE10, AC12, AD11, " & -- D47:D40 " AD14, AD13, AB15, AD18, AE13, AC17, AA16, AB16, " & -- D39:D32 " AB17, AD19, AD21, AE20, AE22, AC21, AC20, AA18, " & -- D31:D24 " AC23, AE23, AD24, AC24, AE25, AD25, AC26, AE26, " & -- D23:D16 " AA19, AB19, AB22, AB20, AA21, AA22, AB23, AB25, " & -- D15:D8 " AB26, AA24, Y23, AD27, AA25, Y24, AA27, Y26), " & -- D7:D0 " DSTBN : (Y12, Y15, Y18, Y21) , " & " DSTBP : (Y11, Y14, Y17, Y20) , " & " DBI : (AB9, AE12, AD22, AC27), " & -- DBI3:DBI0 " COMP : (E16, AD16), " & " DP : (AE17, AC15, AE19, AC18), " & " RSVD_A15 : A15, " & " GTLREF0 : W23, " & " VCCSENSE : B27, " & " VSSSENSE : D26, " & " FERR : E27, " & " A20M : F27, " & " SMI : C27, " & " IGNNE : C26, " & " THERMTRIP : F26, " & " PROCHOT : B25, " & " BSEL0 : AA3, " & " BSEL1 : AB3, " & " ODTEN : B5, " & " RSVD_A1 : A1, " & " RSVD_A4 : A4, " & " RSVD_A16 : A16, " & " RSVD_A26 : A26, " & " RSVD_B1 : B1, " & " RSVD_C5 : C5, " & " RSVD_D25 : D25, " & " RSVD_Y3 : Y3, " & " RSVD_Y27 : Y27, " & " RSVD_Y28 : Y28, " & " RSVD_AC1 : AC1, " & " RSVD_AD1 : AD1, " & " RSVD_AE4 : AE4, " & " RSVD_AE15 : AE15," & " RSVD_AE16 : AE16," & " SKTOCC : A3, " & " SM_ALERT : AD28," & " SM_CLK : AC28," & " SM_DAT : AC29," & " SM_EP_A0 : AA29," & " SM_EP_A1 : AB29," & " SM_EP_A2 : AB28," & " SM_TS1_A0 : AA28," & " SM_TS1_A1 : Y29, " & " SM_VCC : (AE28, AE29)," & " SM_WP : AD29," & " TESTHI0 : W6, " & " TESTHI1 : W7, " & " TESTHI2 : W8, " & " TESTHI3 : Y6, " & " TESTHI4 : AA7, " & " TESTHI5 : AD5, " & " TESTHI6 : AE5, " & " VCC : (A2, A8, A14, A18, A24, A28, A30, B4, B6, B12, " & " B20, B26, B29, B31, C2, C4, C10, C16, C22, C28, " & " C30, D1, D8, D14, D18, D24, D29, D31, E2, E6, " & " E12, E20, E26, E28, E30, F1, F4, F10, F16, F22, " & " F29, F31, G2, G4, G6, G8, G24, G26, G28, G30, " & " H1, H3, H5, H7, H9, H23, H25, H27, H29, H31, " & " J2, J4, J6, J8, J24, J26, J28, J30, K1, K3, " & " K5, K7, K9, K23, K25, K27, K29, K31, L2, L4, " & " L6, L8, L24, L26, L28, L30, M1, M3, M5, M7, " & " M9, M23, M25, M27, M29, M31, N1, N3, N5, N7, " & " N9, N23, N25, N27, N29, N31, P2, P4, P6, P8, " & " P24, P26, P28, P30, R1, R3, R5, R7, R9, R23, " & " R25, R27, R29, R31, T2, T4, T6, T8, T24, T26, " & " T28, T30, U1, U3, U5, U7, U9, U23, U25, U27, " & " U29, U31, V2, V4, V6, V8, V24, V26, V28, V30, " & " W1, W25, W27, W29, W31, Y10, Y16, Y2, Y22, Y30, " & " AA1, AA4, AA6, AA12, AA20, AA26, AA31, AB2, AB8, AB14, " & " AB18, AB24, AB30, AC3, AC4, AC10, AC16, AC22, AC31, AD2, " & " AD6, AD12, AD20, AD26, AD30, AE3, AE8, AE14, AE18, AE24), " & " VID0 : F3, " & " VID1 : E3, " & " VID2 : D3, " & " VID3 : C3, " & " VID4 : B3, " & " VSS : (A5, A11, A21, A27, A29, A31, B2, B9, B15, B17, " & " B23, B28, B30, C1, C7, C13, C19, C25, C29, C31, " & " D2, D5, D11, D21, D27, D28, D30, E1, E9, E15, " & " E17, E23, E29, E31, F2, F7, F13, F19, F25, F28, " & " F30, G1, G3, G5, G7, G9, G25, G27, G29, G31, " & " H2, H4, H6, H8, H24, H26, H28, H30, J1, J3, " & " J5, J7, J9, J23, J25, J27, J29, J31, K2, K4, " & " K6, K8, K24, K26, K28, K30, L1, L3, L5, L7, " & " L9, L23, L25, L27, L29, L31, M2, M4, M6, M8, " & " M24, M26, M28, M30, N2, N4, N6, N8, N24, N26, " & " N28, N30, P1, P3, P5, P7, P9, P23, P25, P27, " & " P29, P31, R2, R4, R6, R8, R24, R26, R28, R30, " & " T1, T3, T5, T7, T9, T23, T25, T27, T29, T31, " & " U2, U4, U6, U8, U24, U26, U28, U30, V1, V3, " & " V5, V7, V9, V23, V25, V27, V29, V31, W2, W4, " & " W24, W26, W28, W30, Y1, Y5, Y7, Y13, Y19, Y25, " & " Y31, AA2, AA9, AA15, AA17, AA23, AA30, AB1, AB5, AB11, " & " AB21, AB27, AB31, AC2, AC7, AC13, AC19, AC25, AC30, AD3, " & " AD9, AD15, AD17, AD23, AD31, AE2, AE11, AE21, AE27) " ; -- -- Scan Port Identification -- attribute TAP_SCAN_IN of TDI : signal is true; attribute TAP_SCAN_MODE of TMS : signal is true; attribute TAP_SCAN_OUT of TDO : signal is true; attribute TAP_SCAN_RESET of TRST : signal is true; attribute TAP_SCAN_CLOCK of TCK : signal is (25.0e6, both); attribute Instruction_Length of INTEL_XEON_MP_2MB_0: entity is 7; attribute Instruction_Opcode of INTEL_XEON_MP_2MB_0: entity is " EXTEST ( 0000000 ), " & " SAMPLE ( 0000001 ), " & " IDCODE ( 0000010 ), " & " CLAMP ( 0000100 ), " & " RUNBIST ( 0000111 ), " & " HIGHZ ( 0001000 ), " & " BYPASS ( 1111111 ), " & " Reserved ( 0000011, 0000101, 0000110, 0001001, 0001010, " & " 0001011, 0001100, 0001101, 0001110, 0001111, " & " 0010000, 0010001, 0010010, 0010011, 0010100, " & " 0010101, 0010110, 0010111, 0011000, 0011001, " & " 0011010, 0011011, 0011100, 0011101, 0011110, " & " 0011111, 0100000, 0100001, 0100010, 0100011, " & " 0100100, 0100101, 0100110, 0100111, 0101000, " & " 0101001, 0101010, 0101011, 0101100, 0101101, " & " 0101110, 0101111, 0110000, 0110001, 0110010, " & " 0110011, 0110100, 0110101, 0110110, 0110111, " & " 0111000, 0111001, 0111010, 0111011, 0111100, " & " 0111101, 0111110, 0111111, 1000000, 1000001, " & " 1000010, 1000011, 1000100, 1000101, 1000110, " & " 1000111, 1001000, 1001001, 1001100 ) " ; attribute Instruction_Capture of INTEL_XEON_MP_2MB_0: entity is "0000001"; attribute Instruction_Private of INTEL_XEON_MP_2MB_0: entity is "Reserved"; -- -- A-0 Stepping IDCODE Register -- attribute Idcode_Register of INTEL_XEON_MP_2MB_0: entity is "0010" & -- A-0 stepping "1000001100000011" & -- Part number "00000001001" & -- Manufacturer's identity "1"; -- Required by the 1149.1 standard -- -- Data Register Access -- attribute Register_Access of INTEL_XEON_MP_2MB_0: entity is "BOUNDARY (EXTEST, SAMPLE), " & "RUNBIST[1] (RUNBIST), " & "DEVICE_ID (IDCODE), " & "BYPASS (CLAMP, HIGHZ, BYPASS)"; -- -- Boundary Scan cells -- -- BS_4 : INPUT -- BC_2 : OUTPUT2 -- BS_G : GTL BIDIR/CONTROL Combo cell -- -- Boundary Register Description -- Cell 0 is closest to TDO -- attribute BOUNDARY_LENGTH of INTEL_XEON_MP_2MB_0 : entity is 166; attribute Boundary_Register of INTEL_XEON_MP_2MB_0 : entity is -- " 0 (BS_4, LINT1, input, X ), " & " 1 (BS_4, LINT0, input, X ), " & " 2 (BS_4, BPRI, input, X ), " & " 3 (BS_4, DEFER, input, X ), " & " 4 (BS_G, HITM, output2, 1, 4, 1, Weak1 ), " & " 4 (BS_G, HITM, input, 1 ), " & " 5 (BS_G, HIT, output2, 1, 5, 1, Weak1 ), " & " 5 (BS_G, HIT, input, 1 ), " & " 6 (BS_4, RS(2), input, X ), " & " 7 (BS_4, RS(1), input, X ), " & " 8 (BS_4, RS(0), input, X ), " & " 9 (BS_G, LOCK, output2, 1, 9, 1, Weak1 ), " & " 9 (BS_G, LOCK, input, 1 ), " & " 10 (BS_G, BR0, output2, 1, 10, 1, Weak1 ), " & " 10 (BS_G, BR0, input, 1 ), " & " 11 (BS_G, ADS, output2, 1, 11, 1, Weak1 ), " & " 11 (BS_G, ADS, input, 1 ), " & " 12 (BS_G, BNR, output2, 1, 12, 1, Weak1 ), " & " 12 (BS_G, BNR, input, 1 ), " & " 13 (BS_4, TRDY, input, X ), " & " 14 (BS_G, DBSY, output2, 1, 14, 1, Weak1 ), " & " 14 (BS_G, DBSY, input, 1 ), " & " 15 (BS_G, DRDY, output2, 1, 15, 1, Weak1 ), " & " 15 (BS_G, DRDY, input, 1 ), " & " 16 (BS_G, REQ(4), output2, 1, 16, 1, Weak1 ), " & " 16 (BS_G, REQ(4), input, 1 ), " & " 17 (BS_G, REQ(3), output2, 1, 17, 1, Weak1 ), " & " 17 (BS_G, REQ(3), input, 1 ), " & " 18 (BS_G, REQ(2), output2, 1, 18, 1, Weak1 ), " & " 18 (BS_G, REQ(2), input, 1 ), " & " 19 (BS_G, REQ(1), output2, 1, 19, 1, Weak1 ), " & " 19 (BS_G, REQ(1), input, 1 ), " & " 20 (BS_G, REQ(0), output2, 1, 20, 1, Weak1 ), " & " 20 (BS_G, REQ(0), input, 1 ), " & " 21 (BS_G, A(3), output2, 1, 21, 1, Weak1 ), " & " 21 (BS_G, A(3), input, 1 ), " & " 22 (BS_G, A(4), output2, 1, 22, 1, Weak1 ), " & " 22 (BS_G, A(4), input, 1 ), " & " 23 (BS_G, A(5), output2, 1, 23, 1, Weak1 ), " & " 23 (BS_G, A(5), input, 1 ), " & " 24 (BS_G, A(6), output2, 1, 24, 1, Weak1 ), " & " 24 (BS_G, A(6), input, 1 ), " & " 25 (BS_G, A(7), output2, 1, 25, 1, Weak1 ), " & " 25 (BS_G, A(7), input, 1 ), " & " 26 (BS_G, ADSTB(0), output2, 1, 26, 1, Weak1 ), " & " 26 (BS_G, ADSTB(0), input, 1 ), " & " 27 (BS_G, A(8), output2, 1, 27, 1, Weak1 ), " & " 27 (BS_G, A(8), input, 1 ), " & " 28 (BS_G, A(9), output2, 1, 28, 1, Weak1 ), " & " 28 (BS_G, A(9), input, 1 ), " & " 29 (BS_G, A(10), output2, 1, 29, 1, Weak1 ), " & " 29 (BS_G, A(10), input, 1 ), " & " 30 (BS_G, A(11), output2, 1, 30, 1, Weak1 ), " & " 30 (BS_G, A(11), input, 1 ), " & " 31 (BS_G, A(13), output2, 1, 31, 1, Weak1 ), " & " 31 (BS_G, A(13), input, 1 ), " & " 32 (BS_G, A(12), output2, 1, 32, 1, Weak1 ), " & " 32 (BS_G, A(12), input, 1 ), " & " 33 (BS_G, A(14), output2, 1, 33, 1, Weak1 ), " & " 33 (BS_G, A(14), input, 1 ), " & " 34 (BS_G, A(15), output2, 1, 34, 1, Weak1 ), " & " 34 (BS_G, A(15), input, 1 ), " & " 35 (BS_G, A(16), output2, 1, 35, 1, Weak1 ), " & " 35 (BS_G, A(16), input, 1 ), " & " 36 (BS_G, A(17), output2, 1, 36, 1, Weak1 ), " & " 36 (BS_G, A(17), input, 1 ), " & " 37 (BS_G, A(18), output2, 1, 37, 1, Weak1 ), " & " 37 (BS_G, A(18), input, 1 ), " & " 38 (BS_G, A(19), output2, 1, 38, 1, Weak1 ), " & " 38 (BS_G, A(19), input, 1 ), " & " 39 (BS_G, A(20), output2, 1, 39, 1, Weak1 ), " & " 39 (BS_G, A(20), input, 1 ), " & " 40 (BS_G, A(21), output2, 1, 40, 1, Weak1 ), " & " 40 (BS_G, A(21), input, 1 ), " & " 41 (BS_G, A(22), output2, 1, 41, 1, Weak1 ), " & " 41 (BS_G, A(22), input, 1 ), " & " 42 (BS_G, A(23), output2, 1, 42, 1, Weak1 ), " & " 42 (BS_G, A(23), input, 1 ), " & " 43 (BS_G, A(24), output2, 1, 43, 1, Weak1 ), " & " 43 (BS_G, A(24), input, 1 ), " & " 44 (BS_G, A(25), output2, 1, 44, 1, Weak1 ), " & " 44 (BS_G, A(25), input, 1 ), " & " 45 (BS_G, A(26), output2, 1, 45, 1, Weak1 ), " & " 45 (BS_G, A(26), input, 1 ), " & " 46 (BS_G, ADSTB(1), output2, 1, 46, 1, Weak1 ), " & " 46 (BS_G, ADSTB(1), input, 1 ), " & " 47 (BS_G, A(27), output2, 1, 47, 1, Weak1 ), " & " 47 (BS_G, A(27), input, 1 ), " & " 48 (BS_G, A(28), output2, 1, 48, 1, Weak1 ), " & " 48 (BS_G, A(28), input, 1 ), " & " 49 (BS_G, A(29), output2, 1, 49, 1, Weak1 ), " & " 49 (BS_G, A(29), input, 1 ), " & " 50 (BS_G, A(30), output2, 1, 50, 1, Weak1 ), " & " 50 (BS_G, A(30), input, 1 ), " & " 51 (BS_G, A(31), output2, 1, 51, 1, Weak1 ), " & " 51 (BS_G, A(31), input, 1 ), " & " 52 (BS_G, A(32), output2, 1, 52, 1, Weak1 ), " & " 52 (BS_G, A(32), input, 1 ), " & " 53 (BS_G, A(33), output2, 1, 53, 1, Weak1 ), " & " 53 (BS_G, A(33), input, 1 ), " & " 54 (BS_G, A(34), output2, 1, 54, 1, Weak1 ), " & " 54 (BS_G, A(34), input, 1 ), " & " 55 (BS_G, A(35), output2, 1, 55, 1, Weak1 ), " & " 55 (BS_G, A(35), input, 1 ), " & " 56 (BS_4, BR1, input, X ), " & " 57 (BS_4, BR2, input, X ), " & " 58 (BS_4, BR3, input, X ), " & " 59 (BS_G, AP(1), output2, 1, 59, 1, Weak1 ), " & " 59 (BS_G, AP(1), input, 1 ), " & " 60 (BS_G, AP(0), output2, 1, 60, 1, Weak1 ), " & " 60 (BS_G, AP(0), input, 1 ), " & " 61 (BS_4, RSP, input, X ), " & " 62 (BS_G, BINIT, output2, 1, 62, 1, Weak1 ), " & " 62 (BS_G, BINIT, input, 1 ), " & " 63 (BS_G, MCERR, output2, 1, 63, 1, Weak1 ), " & " 63 (BS_G, MCERR, input, 1 ), " & " 64 (BS_4, INIT, input, X ), " & " 65 (BS_4, STPCLK, input, X ), " & " 66 (BC_2, IERR, output2, 1, 66, 1, Weak1 ), " & " 67 (BS_G, BPM(5), output2, 1, 67, 1, Weak1 ), " & " 67 (BS_G, BPM(5), input, 1 ), " & " 68 (BS_G, BPM(4), output2, 1, 68, 1, Weak1 ), " & " 68 (BS_G, BPM(4), input, 1 ), " & " 69 (BS_G, BPM(3), output2, 1, 69, 1, Weak1 ), " & " 69 (BS_G, BPM(3), input, 1 ), " & " 70 (BS_G, BPM(2), output2, 1, 70, 1, Weak1 ), " & " 70 (BS_G, BPM(2), input, 1 ), " & " 71 (BS_G, BPM(1), output2, 1, 71, 1, Weak1 ), " & " 71 (BS_G, BPM(1), input, 1 ), " & " 72 (BS_G, BPM(0), output2, 1, 72, 1, Weak1 ), " & " 72 (BS_G, BPM(0), input, 1 ), " & " 73 (BS_G, BCLK0, input, X ), " & " 74 (BS_G, BCLK1, input, X ), " & " 75 (BS_4, PWRGOOD, input, 0 ), " & " 76 (BS_4, SLP, input, 1 ), " & " 77 (BS_4, RESET, input, 1 ), " & " 78 (BS_4, RSVD_W3, input, 1 ), " & " 79 (BS_G, D(62), output2, 1, 79, 1, Weak1 ), " & " 79 (BS_G, D(62), input, 1 ), " & " 80 (BS_G, D(63), output2, 1, 80, 1, Weak1 ), " & " 80 (BS_G, D(63), input, 1 ), " & " 81 (BS_G, D(61), output2, 1, 81, 1, Weak1 ), " & " 81 (BS_G, D(61), input, 1 ), " & " 82 (BS_G, D(60), output2, 1, 82, 1, Weak1 ), " & " 82 (BS_G, D(60), input, 1 ), " & " 83 (BS_G, D(59), output2, 1, 83, 1, Weak1 ), " & " 83 (BS_G, D(59), input, 1 ), " & " 84 (BS_G, D(58), output2, 1, 84, 1, Weak1 ), " & " 84 (BS_G, D(58), input, 1 ), " & " 85 (BS_G, D(56), output2, 1, 85, 1, Weak1 ), " & " 85 (BS_G, D(56), input, 1 ), " & " 86 (BS_G, D(57), output2, 1, 86, 1, Weak1 ), " & " 86 (BS_G, D(57), input, 1 ), " & " 87 (BS_G, DSTBN(3), output2, 1, 87, 1, Weak1 ), " & " 87 (BS_G, DSTBN(3), input, 1 ), " & " 88 (BS_G, DSTBP(3), output2, 1, 88, 1, Weak1 ), " & " 88 (BS_G, DSTBP(3), input, 1 ), " & " 89 (BS_G, DBI(3), output2, 1, 89, 1, Weak1 ), " & " 89 (BS_G, DBI(3), input, 1 ), " & " 90 (BS_G, D(55), output2, 1, 90, 1, Weak1 ), " & " 90 (BS_G, D(55), input, 1 ), " & " 91 (BS_G, D(54), output2, 1, 91, 1, Weak1 ), " & " 91 (BS_G, D(54), input, 1 ), " & " 92 (BS_G, D(53), output2, 1, 92, 1, Weak1 ), " & " 92 (BS_G, D(53), input, 1 ), " & " 93 (BS_G, D(51), output2, 1, 93, 1, Weak1 ), " & " 93 (BS_G, D(51), input, 1 ), " & " 94 (BS_G, D(52), output2, 1, 94, 1, Weak1 ), " & " 94 (BS_G, D(52), input, 1 ), " & " 95 (BS_G, D(50), output2, 1, 95, 1, Weak1 ), " & " 95 (BS_G, D(50), input, 1 ), " & " 96 (BS_G, D(49), output2, 1, 96, 1, Weak1 ), " & " 96 (BS_G, D(49), input, 1 ), " & " 97 (BS_G, D(48), output2, 1, 97, 1, Weak1 ), " & " 97 (BS_G, D(48), input, 1 ), " & " 98 (BS_G, D(47), output2, 1, 98, 1, Weak1 ), " & " 98 (BS_G, D(47), input, 1 ), " & " 99 (BS_G, D(46), output2, 1, 99, 1, Weak1 ), " & " 99 (BS_G, D(46), input, 1 ), " & " 100 (BS_G, D(45), output2, 1, 100, 1, Weak1 ), " & " 100 (BS_G, D(45), input, 1 ), " & " 101 (BS_G, D(44), output2, 1, 101, 1, Weak1 ), " & " 101 (BS_G, D(44), input, 1 ), " & " 102 (BS_G, D(43), output2, 1, 102, 1, Weak1 ), " & " 102 (BS_G, D(43), input, 1 ), " & " 103 (BS_G, D(42), output2, 1, 103, 1, Weak1 ), " & " 103 (BS_G, D(42), input, 1 ), " & " 104 (BS_G, D(41), output2, 1, 104, 1, Weak1 ), " & " 104 (BS_G, D(41), input, 1 ), " & " 105 (BS_G, D(40), output2, 1, 105, 1, Weak1 ), " & " 105 (BS_G, D(40), input, 1 ), " & " 106 (BS_G, DSTBN(2), output2, 1, 106, 1, Weak1 ), " & " 106 (BS_G, DSTBN(2), input, 1 ), " & " 107 (BS_G, DSTBP(2), output2, 1, 107, 1, Weak1 ), " & " 107 (BS_G, DSTBP(2), input, 1 ), " & " 108 (BS_G, DBI(2), output2, 1, 108, 1, Weak1 ), " & " 108 (BS_G, DBI(2), input, 1 ), " & " 109 (BS_G, D(38), output2, 1, 109, 1, Weak1 ), " & " 109 (BS_G, D(38), input, 1 ), " & " 110 (BS_G, D(39), output2, 1, 110, 1, Weak1 ), " & " 110 (BS_G, D(39), input, 1 ), " & " 111 (BS_G, D(37), output2, 1, 111, 1, Weak1 ), " & " 111 (BS_G, D(37), input, 1 ), " & " 112 (BS_G, D(35), output2, 1, 112, 1, Weak1 ), " & " 112 (BS_G, D(35), input, 1 ), " & " 113 (BS_G, D(36), output2, 1, 113, 1, Weak1 ), " & " 113 (BS_G, D(36), input, 1 ), " & " 114 (BS_G, D(34), output2, 1, 114, 1, Weak1 ), " & " 114 (BS_G, D(34), input, 1 ), " & " 115 (BS_G, D(33), output2, 1, 115, 1, Weak1 ), " & " 115 (BS_G, D(33), input, 1 ), " & " 116 (BS_G, D(32), output2, 1, 116, 1, Weak1 ), " & " 116 (BS_G, D(32), input, 1 ), " & " 117 (BS_G, DP(3), output2, 1, 117, 1, Weak1 ), " & " 117 (BS_G, DP(3), input, 1 ), " & " 118 (BS_G, DP(2), output2, 1, 118, 1, Weak1 ), " & " 118 (BS_G, DP(2), input, 1 ), " & " 119 (BS_G, DP(1), output2, 1, 119, 1, Weak1 ), " & " 119 (BS_G, DP(1), input, 1 ), " & " 120 (BS_G, DP(0), output2, 1, 120, 1, Weak1 ), " & " 120 (BS_G, DP(0), input, 1 ), " & " 121 (BS_G, D(31), output2, 1, 121, 1, Weak1 ), " & " 121 (BS_G, D(31), input, 1 ), " & " 122 (BS_G, D(28), output2, 1, 122, 1, Weak1 ), " & " 122 (BS_G, D(28), input, 1 ), " & " 123 (BS_G, D(29), output2, 1, 123, 1, Weak1 ), " & " 123 (BS_G, D(29), input, 1 ), " & " 124 (BS_G, D(30), output2, 1, 124, 1, Weak1 ), " & " 124 (BS_G, D(30), input, 1 ), " & " 125 (BS_G, D(27), output2, 1, 125, 1, Weak1 ), " & " 125 (BS_G, D(27), input, 1 ), " & " 126 (BS_G, D(26), output2, 1, 126, 1, Weak1 ), " & " 126 (BS_G, D(26), input, 1 ), " & " 127 (BS_G, D(25), output2, 1, 127, 1, Weak1 ), " & " 127 (BS_G, D(25), input, 1 ), " & " 128 (BS_G, D(24), output2, 1, 128, 1, Weak1 ), " & " 128 (BS_G, D(24), input, 1 ), " & " 129 (BS_G, DSTBN(1), output2, 1, 129, 1, Weak1 ), " & " 129 (BS_G, DSTBN(1), input, 1 ), " & " 130 (BS_G, DSTBP(1), output2, 1, 130, 1, Weak1 ), " & " 130 (BS_G, DSTBP(1), input, 1 ), " & " 131 (BS_G, DBI(1), output2, 1, 131, 1, Weak1 ), " & " 131 (BS_G, DBI(1), input, 1 ), " & " 132 (BS_G, D(22), output2, 1, 132, 1, Weak1 ), " & " 132 (BS_G, D(22), input, 1 ), " & " 133 (BS_G, D(23), output2, 1, 133, 1, Weak1 ), " & " 133 (BS_G, D(23), input, 1 ), " & " 134 (BS_G, D(21), output2, 1, 134, 1, Weak1 ), " & " 134 (BS_G, D(21), input, 1 ), " & " 135 (BS_G, D(20), output2, 1, 135, 1, Weak1 ), " & " 135 (BS_G, D(20), input, 1 ), " & " 136 (BS_G, D(19), output2, 1, 136, 1, Weak1 ), " & " 136 (BS_G, D(19), input, 1 ), " & " 137 (BS_G, D(18), output2, 1, 137, 1, Weak1 ), " & " 137 (BS_G, D(18), input, 1 ), " & " 138 (BS_G, D(16), output2, 1, 138, 1, Weak1 ), " & " 138 (BS_G, D(16), input, 1 ), " & " 139 (BS_G, D(17), output2, 1, 139, 1, Weak1 ), " & " 139 (BS_G, D(17), input, 1 ), " & " 140 (BS_G, D(15), output2, 1, 140, 1, Weak1 ), " & " 140 (BS_G, D(15), input, 1 ), " & " 141 (BS_G, D(14), output2, 1, 141, 1, Weak1 ), " & " 141 (BS_G, D(14), input, 1 ), " & " 142 (BS_G, D(12), output2, 1, 142, 1, Weak1 ), " & " 142 (BS_G, D(12), input, 1 ), " & " 143 (BS_G, D(13), output2, 1, 143, 1, Weak1 ), " & " 143 (BS_G, D(13), input, 1 ), " & " 144 (BS_G, D(11), output2, 1, 144, 1, Weak1 ), " & " 144 (BS_G, D(11), input, 1 ), " & " 145 (BS_G, D(10), output2, 1, 145, 1, Weak1 ), " & " 145 (BS_G, D(10), input, 1 ), " & " 146 (BS_G, D(9), output2, 1, 146, 1, Weak1 ), " & " 146 (BS_G, D(9), input, 1 ), " & " 147 (BS_G, D(8), output2, 1, 147, 1, Weak1 ), " & " 147 (BS_G, D(8), input, 1 ), " & " 148 (BS_G, DSTBN(0), output2, 1, 148, 1, Weak1 ), " & " 148 (BS_G, DSTBN(0), input, 1 ), " & " 149 (BS_G, DSTBP(0), output2, 1, 149, 1, Weak1 ), " & " 149 (BS_G, DSTBP(0), input, 1 ), " & " 150 (BS_G, DBI(0), output2, 1, 150, 1, Weak1 ), " & " 150 (BS_G, DBI(0), input, 1 ), " & " 151 (BS_G, D(7), output2, 1, 151, 1, Weak1 ), " & " 151 (BS_G, D(7), input, 1 ), " & " 152 (BS_G, D(5), output2, 1, 152, 1, Weak1 ), " & " 152 (BS_G, D(5), input, 1 ), " & " 153 (BS_G, D(6), output2, 1, 153, 1, Weak1 ), " & " 153 (BS_G, D(6), input, 1 ), " & " 154 (BS_G, D(3), output2, 1, 154, 1, Weak1 ), " & " 154 (BS_G, D(3), input, 1 ), " & " 155 (BS_G, D(4), output2, 1, 155, 1, Weak1 ), " & " 155 (BS_G, D(4), input, 1 ), " & " 156 (BS_G, D(2), output2, 1, 156, 1, Weak1 ), " & " 156 (BS_G, D(2), input, 1 ), " & " 157 (BS_G, D(1), output2, 1, 157, 1, Weak1 ), " & " 157 (BS_G, D(1), input, 1 ), " & " 158 (BS_G, D(0), output2, 1, 158, 1, Weak1 ), " & " 158 (BS_G, D(0), input, 1 ), " & " 159 (BS_G, RSVD_A15, input, X ), " & " 160 (BC_2, FERR, output2, 1, 160, 1, Weak1 ), " & " 161 (BS_4, A20M, input, X ), " & " 162 (BS_4, SMI, input, X ), " & " 163 (BS_4, IGNNE, input, X ), " & " 164 (BC_2, THERMTRIP, output2, 1, 164, 1, Weak1 ), " & " 165 (BC_2, PROCHOT, output2, 1, 165, 1, Weak1 ) " ; end INTEL_XEON_MP_2MB_0;