-- Vantis M4-96/48 100 Pin TQFP BSDL description -- -- Written By: Phil Vu -- Date: May 7, 1998 -- 12/07/1998: (Phil Vu) Corrected Pin Map String and BSDL information. -- 09/04/1998: (Jan Buxton) Updated entity to descriptive, 14-char string. -- 10/08/1998: (Jan Buxton) Moved some instructions from private to public. -- 03/28/2000 (jkb): Changed port, PIN_MAP_STRING, and BSDL description -- statements from IO array to IO Segment arrays. -- 03/31/2000 (jkb): updated Copyright comments. -- **************************************************************** -- * Copyright 1999, 2000 Lattice/Vantis Corporation * -- * 995 Stewart Dr. Sunnyvale, Ca 94088 * -- * All rights reserved. No part of this program or publication* -- * may be reproduced, transmitted, transcribed, stored in a * -- * retrieval system, or translated into any language or * -- * computer language, in any form or by any means without this * -- * notice appearing within. * -- **************************************************************** -- * Lattice/Vantis makes no warranty for the use of this * -- * product and assumes no responsibility for any errors which * -- * may appear within. Neither does it make a commitment to * -- * update this information. * -- **************************************************************** -- * This is the template BSDL file to be used for the purpose * -- * of verifying the part's compliance with the IEEE standard * -- * 1149.1-1990. * -- **************************************************************** -- -- This file has been verified by: -- Teradyne VICTORY v 2.10 -- - Syntax Check using BSA -- - Test vector generation using BSA -- -- Hewlett-Packard Boundary-Scan Software -- - Syntax Check -- -- Genrad Boundary-Scan Software -- - Syntax Check -- - Physical Verification -- Entity format: Mabcdddeeefggg -- a = family (1, 2, 4, 5) -- b = A for "A" type parts -- c = Vcc level: 5, 3, 2, or 1 for 5.0, 3.3, 2.5, or 1.8 VDC -- ddd = number of macrocells, such as 064 -- eee = number of I/O pins, such as 032 -- f = package: L, P, T, or B for PLCC, PQFP, TQFP, or BGA -- ggg = number of pins, such as 044 entity M4_5096048T100 is generic(PHYSICAL_PIN_MAP : string := "TQFP_100pin"); port ( DED_IN : in bit_vector(0 to 7); -- Clocks/Inputs IOA : inout bit_vector(0 to 7); -- Segment A pins IOB : inout bit_vector(0 to 7); -- Segment B pins IOC : inout bit_vector(0 to 7); -- Segment C pins IOD : inout bit_vector(0 to 7); -- Segment D pins IOE : inout bit_vector(0 to 7); -- Segment E pins IOF : inout bit_vector(0 to 7); -- Segment F pins TCK, TMS, TDI: in bit; -- JTAG inputs TDO : out bit; -- JTAG outputs VCC : linkage bit_vector(0 to 3); GND : linkage bit_vector(0 to 7); NC : linkage bit_vector(0 to 27) ); use STD_1149_1_1990.all; -- get JTAG definitions and attributes attribute PIN_MAP of M4_5096048T100 : entity is PHYSICAL_PIN_MAP; constant TQFP_100pin : PIN_MAP_STRING := "DED_IN: (11, 14, 36, 41, 61, 64, 86, 91), " & -- Clk/Inp Pins "IOA : ( 6, 5, 97, 96, 95, 94, 93, 92)," & -- I/O A "IOB : ( 7, 8, 9, 10, 15, 16, 17, 18)," & -- I/O B "IOC : ( 19, 20, 29, 30, 31, 32, 33, 34)," & -- I/O C "IOD : ( 56, 55, 47, 46, 45, 44, 43, 42)," & -- I/O D "IOE : ( 68, 67, 66, 65, 60, 59, 58, 57)," & -- I/O E "IOF : ( 69, 70, 79, 80, 81, 82, 83, 84)," & -- I/O F "TDI: 2, TMS: 23, TCK: 24, TDO: 74, " & -- JTAG "VCC: (12, 40, 62, 90), " & -- POWER "GND: (13, 26, 39, 50, 63, 76, 89, 100), " & -- GROUND PINS "NC : ( 1, 3, 4, 21, 22, 25, 27, 28, " & " 35, 37, 38, 48, 49, 51, 52, 53, " & " 54, 71, 72, 73, 75, 77, 78, 85, " & " 87, 88, 98, 99)"; -- No Connect 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_CLOCK of TCK: signal is (20.0e6, BOTH); -- Instruction register definitions attribute INSTRUCTION_LENGTH of M4_5096048T100 : entity is 6; attribute INSTRUCTION_OPCODE of M4_5096048T100 : entity is "BYPASS (111111)," & "EXTEST (000000)," & "SAMPLE (000010)," & "IDCODE (000001)," & "USERCODE (010000)," & "HIGHZ (010001)," & "PRIV003 (000011)," & "PRIV004 (000100)," & "PRIV005 (000101)," & "PRIV006 (000110)," & "PRIV007 (000111)," & "PRIV008 (001000)," & "PRIV009 (001001)," & "PRIV00F (001111)," & "PRIVATE (110011,110100,110000,110010,100101,101110," & "100111,101101,001100,001101,001110)"; attribute INSTRUCTION_CAPTURE of M4_5096048T100 : entity is "000001"; attribute INSTRUCTION_DISABLE of M4_5096048T100 : entity is "HIGHZ"; attribute INSTRUCTION_PRIVATE of M4_5096048T100 : entity is "PRIVATE"; attribute IDCODE_REGISTER of M4_5096048T100 : entity is "0000" & -- version number "0111010011010000" & -- part identification "00010101011" & -- company code "1"; -- mandatory 1 attribute USERCODE_REGISTER of M4_5096048T100 : entity is "11111111111111111111111111111111"; attribute REGISTER_ACCESS of M4_5096048T100 : entity is "BYPASS (BYPASS, HIGHZ, PRIV005, PRIV006, PRIV008, PRIV009)," & "BOUNDARY (EXTEST, SAMPLE)," & "ROWREG[80](PRIV003)," & "COLREG[582](PRIV004, PRIV007)," & "PRIVR00F[5](PRIV00F)"; -- ************************************************************** -- * BOUNDARY SCAN CELL REGISTER DESCRIPTION -- * THE FIRST CELL (0) IS THE CELL CLOSEST TO TDO -- ************************************************************** attribute BOUNDARY_CELLS of M4_5096048T100: entity is "BC_1"; attribute BOUNDARY_LENGTH of M4_5096048T100: entity is 152; attribute BOUNDARY_REGISTER of M4_5096048T100: entity is -- 1. The order of the I/O cell is OE - OUTPUT - INPUT -- 2. The output is disabled when a 0 is shifted into the OE cell. -- 3. The pictoral representation of the Boundary scan -- register is found in VANTIS document no. 93-009-6105-JT-01. ----------------------------- Block A ------------------------------------------------- " 151 (BC_1, IOA(0), INPUT , X)," & -- A0 " 150 (BC_1, IOA(0), OUTPUT3, X, 149, 0, Z)," & " 149 (BC_1, *, CONTROL, 0)," & " 148 (BC_1, IOA(1), INPUT , X)," & " 147 (BC_1, IOA(1), OUTPUT3, X, 146, 0, Z)," & " 146 (BC_1, *, CONTROL, 0)," & " 145 (BC_1, IOA(2), INPUT , X)," & " 144 (BC_1, IOA(2), OUTPUT3, X, 143, 0, Z)," & " 143 (BC_1, *, CONTROL, 0)," & " 142 (BC_1, IOA(3), INPUT , X)," & " 141 (BC_1, IOA(3), OUTPUT3, X, 140, 0, Z)," & " 140 (BC_1, *, CONTROL, 0)," & " 139 (BC_1, IOA(4), INPUT , X)," & " 138 (BC_1, IOA(4), OUTPUT3, X, 137, 0, Z)," & " 137 (BC_1, *, CONTROL, 0)," & " 136 (BC_1, IOA(5), INPUT , X)," & " 135 (BC_1, IOA(5), OUTPUT3, X, 134, 0, Z)," & " 134 (BC_1, *, CONTROL, 0)," & " 133 (BC_1, IOA(6), INPUT , X)," & " 132 (BC_1, IOA(6), OUTPUT3, X, 131, 0, Z)," & " 131 (BC_1, *, CONTROL, 0)," & " 130 (BC_1, IOA(7), INPUT , X)," & -- A7 " 129 (BC_1, IOA(7), OUTPUT3, X, 128, 0, Z)," & " 128 (BC_1, *, CONTROL, 0)," & ----------------------------- Block B ------------------------------------------------- " 127 (BC_1, IOB(0), INPUT , X)," & -- B0 " 126 (BC_1, IOB(0), OUTPUT3, X, 125, 0, Z)," & " 125 (BC_1, *, CONTROL, 0)," & " 124 (BC_1, IOB(1), INPUT , X)," & " 123 (BC_1, IOB(1), OUTPUT3, X, 122, 0, Z)," & " 122 (BC_1, *, CONTROL, 0)," & " 121 (BC_1, IOB(2), INPUT , X)," & " 120 (BC_1, IOB(2), OUTPUT3, X, 119, 0, Z)," & " 119 (BC_1, *, CONTROL, 0)," & " 118 (BC_1, IOB(3), INPUT , X)," & " 117 (BC_1, IOB(3), OUTPUT3, X, 116, 0, Z)," & " 116 (BC_1, *, CONTROL, 0)," & " 115 (BC_1, IOB(4), INPUT , X)," & " 114 (BC_1, IOB(4), OUTPUT3, X, 113, 0, Z)," & " 113 (BC_1, *, CONTROL, 0)," & " 112 (BC_1, IOB(5), INPUT , X)," & " 111 (BC_1, IOB(5), OUTPUT3, X, 110, 0, Z)," & " 110 (BC_1, *, CONTROL, 0)," & " 109 (BC_1, IOB(6), INPUT , X)," & " 108 (BC_1, IOB(6), OUTPUT3, X, 107, 0, Z)," & " 107 (BC_1, *, CONTROL, 0)," & " 106 (BC_1, IOB(7), INPUT , X)," & -- B7 " 105 (BC_1, IOB(7), OUTPUT3, X, 104, 0, Z)," & " 104 (BC_1, *, CONTROL, 0)," & ----------------------------- II0/Clock0 & II1/Clock1 ----------------------------- " 103 (BC_1, DED_IN(0), INPUT, X)," & " 102 (BC_1, DED_IN(1), INPUT, X)," & ----------------------------- Block C ------------------------------------------------- " 101 (BC_1, IOC(0), INPUT , X)," & -- C0 " 100 (BC_1, IOC(0), OUTPUT3, X, 99, 0, Z)," & " 99 (BC_1, *, CONTROL, 0)," & " 98 (BC_1, IOC(1), INPUT , X)," & " 97 (BC_1, IOC(1), OUTPUT3, X, 96, 0, Z)," & " 96 (BC_1, *, CONTROL, 0)," & " 95 (BC_1, IOC(2), INPUT , X)," & " 94 (BC_1, IOC(2), OUTPUT3, X, 93, 0, Z)," & " 93 (BC_1, *, CONTROL, 0)," & " 92 (BC_1, IOC(3), INPUT , X)," & " 91 (BC_1, IOC(3), OUTPUT3, X, 90, 0, Z)," & " 90 (BC_1, *, CONTROL, 0)," & " 89 (BC_1, IOC(4), INPUT , X)," & " 88 (BC_1, IOC(4), OUTPUT3, X, 87, 0, Z)," & " 87 (BC_1, *, CONTROL, 0)," & " 86 (BC_1, IOC(5), INPUT , X)," & " 85 (BC_1, IOC(5), OUTPUT3, X, 84, 0, Z)," & " 84 (BC_1, *, CONTROL, 0)," & " 83 (BC_1, IOC(6), INPUT , X)," & " 82 (BC_1, IOC(6), OUTPUT3, X, 81, 0, Z)," & " 81 (BC_1, *, CONTROL, 0)," & " 80 (BC_1, IOC(7), INPUT , X)," & -- C7 " 79 (BC_1, IOC(7), OUTPUT3, X, 78, 0, Z)," & " 78 (BC_1, *, CONTROL, 0)," & ----------------------------- II2 & II3 ----------------------------------------------- " 77 (BC_1, DED_IN(2), INPUT, X)," & " 76 (BC_1, DED_IN(3), INPUT, X)," & ----------------------------- Block D ------------------------------------------------- " 75 (BC_1, IOD(0), INPUT , X)," & -- D0 " 74 (BC_1, IOD(0), OUTPUT3, X, 73, 0, Z)," & " 73 (BC_1, *, CONTROL, 0)," & " 72 (BC_1, IOD(1), INPUT , X)," & " 71 (BC_1, IOD(1), OUTPUT3, X, 70, 0, Z)," & " 70 (BC_1, *, CONTROL, 0)," & " 69 (BC_1, IOD(2), INPUT , X)," & " 68 (BC_1, IOD(2), OUTPUT3, X, 67, 0, Z)," & " 67 (BC_1, *, CONTROL, 0)," & " 66 (BC_1, IOD(3), INPUT , X)," & " 65 (BC_1, IOD(3), OUTPUT3, X, 64, 0, Z)," & " 64 (BC_1, *, CONTROL, 0)," & " 63 (BC_1, IOD(4), INPUT , X)," & " 62 (BC_1, IOD(4), OUTPUT3, X, 61, 0, Z)," & " 61 (BC_1, *, CONTROL, 0)," & " 60 (BC_1, IOD(5), INPUT , X)," & " 59 (BC_1, IOD(5), OUTPUT3, X, 58, 0, Z)," & " 58 (BC_1, *, CONTROL, 0)," & " 57 (BC_1, IOD(6), INPUT , X)," & " 56 (BC_1, IOD(6), OUTPUT3, X, 55, 0, Z)," & " 55 (BC_1, *, CONTROL, 0)," & " 54 (BC_1, IOD(7), INPUT , X)," & -- D7 " 53 (BC_1, IOD(7), OUTPUT3, X, 52, 0, Z)," & " 52 (BC_1, *, CONTROL, 0)," & ----------------------------- II4/Clock2 & II5/Clock3 ----------------------------- " 51 (BC_1, DED_IN(4), INPUT, X)," & " 50 (BC_1, DED_IN(5), INPUT, X)," & ----------------------------- Block E ------------------------------------------------- " 49 (BC_1, IOE(0), INPUT , X)," & -- E0 " 48 (BC_1, IOE(0), OUTPUT3, X, 47, 0, Z)," & " 47 (BC_1, *, CONTROL, 0)," & " 46 (BC_1, IOE(1), INPUT , X)," & " 45 (BC_1, IOE(1), OUTPUT3, X, 44, 0, Z)," & " 44 (BC_1, *, CONTROL, 0)," & " 43 (BC_1, IOE(2), INPUT , X)," & " 42 (BC_1, IOE(2), OUTPUT3, X, 41, 0, Z)," & " 41 (BC_1, *, CONTROL, 0)," & " 40 (BC_1, IOE(3), INPUT , X)," & " 39 (BC_1, IOE(3), OUTPUT3, X, 38, 0, Z)," & " 38 (BC_1, *, CONTROL, 0)," & " 37 (BC_1, IOE(4), INPUT , X)," & " 36 (BC_1, IOE(4), OUTPUT3, X, 35, 0, Z)," & " 35 (BC_1, *, CONTROL, 0)," & " 34 (BC_1, IOE(5), INPUT , X)," & " 33 (BC_1, IOE(5), OUTPUT3, X, 32, 0, Z)," & " 32 (BC_1, *, CONTROL, 0)," & " 31 (BC_1, IOE(6), INPUT , X)," & " 30 (BC_1, IOE(6), OUTPUT3, X, 29, 0, Z)," & " 29 (BC_1, *, CONTROL, 0)," & " 28 (BC_1, IOE(7), INPUT , X)," & -- E7 " 27 (BC_1, IOE(7), OUTPUT3, X, 26, 0, Z)," & " 26 (BC_1, *, CONTROL, 0)," & ----------------------------- Block F ------------------------------------------------- " 25 (BC_1, IOF(0), INPUT , X)," & -- F0 " 24 (BC_1, IOF(0), OUTPUT3, X, 23, 0, Z)," & " 23 (BC_1, *, CONTROL, 0)," & " 22 (BC_1, IOF(1), INPUT , X)," & " 21 (BC_1, IOF(1), OUTPUT3, X, 20, 0, Z)," & " 20 (BC_1, *, CONTROL, 0)," & " 19 (BC_1, IOF(2), INPUT , X)," & " 18 (BC_1, IOF(2), OUTPUT3, X, 17, 0, Z)," & " 17 (BC_1, *, CONTROL, 0)," & " 16 (BC_1, IOF(3), INPUT , X)," & " 15 (BC_1, IOF(3), OUTPUT3, X, 14, 0, Z)," & " 14 (BC_1, *, CONTROL, 0)," & " 13 (BC_1, IOF(4), INPUT , X)," & " 12 (BC_1, IOF(4), OUTPUT3, X, 11, 0, Z)," & " 11 (BC_1, *, CONTROL, 0)," & " 10 (BC_1, IOF(5), INPUT , X)," & " 9 (BC_1, IOF(5), OUTPUT3, X, 8, 0, Z)," & " 8 (BC_1, *, CONTROL, 0)," & " 7 (BC_1, IOF(6), INPUT , X)," & " 6 (BC_1, IOF(6), OUTPUT3, X, 5, 0, Z)," & " 5 (BC_1, *, CONTROL, 0)," & " 4 (BC_1, IOF(7), INPUT , X)," & -- F7 " 3 (BC_1, IOF(7), OUTPUT3, X, 2, 0, Z)," & " 2 (BC_1, *, CONTROL, 0)," & ----------------------------- II6 & II7 ----------------------------- " 1 (BC_1, DED_IN(6), INPUT, X)," & " 0 (BC_1, DED_IN(7), INPUT, X) "; end M4_5096048T100;