-- *********************************************************************** -- -- File Name : DS26102_BSDL.TXT -- Created by Synopsys Version 2000.11 (Nov 27, 2000) -- Company : Dallas Semiconductor -- Documentation : DS26102 data sheets -- BSDL Revision : 1.0 -- Date : 09/29/05 -- -- Device : DS26102 -- Package : 256-pin PBGA -- -- IMPORTANT NOTICE -- Dallas Semiconductor customers are advised to obtain the latest version of -- device specifications before relying on any published information contained -- herein. Dallas Semiconductor assumes no responsibility or liability arising -- out of the application of any information described herein. -- -- IMPORTANT NOTICE ABOUT THE REVISION -- -- Dallas Semiconductor customers are advised to check the revision of the -- device they will be using. All the codes for the device revisions are -- herein this BSDL file. -- -- The characters "/", "(", ")" and "*" have been removed from signal names for -- compatibility with BSDL file format. -- -- *********************************************************************** entity ds26102 is -- This section identifies the default device package selected. generic (PHYSICAL_PIN_MAP: string:= "PBGA_256"); -- This section declares all the ports in the design. port ( bls : in bit; clk_8k : in bit; gclk_in : in bit; jtclk : in bit; jtdi : in bit; jtms : in bit; jtrst_n : in bit; mp_bts : in bit; mp_cs_n : in bit; mp_mux : in bit; mp_rd_n : in bit; mp_wr_n : in bit; ref_clk : in bit; reset_n : in bit; rx_utop_clk : in bit; rx_utop_enb_n : in bit; scan_enable : in bit; scan_mode : in bit; test_mode : in bit; tu_parity : in bit; tx_utop_clk : in bit; tx_utop_enb_n : in bit; tx_utop_soc : in bit; ex_stat : in bit_vector (0 to 7); mp_addr : in bit_vector (0 to 7); rclk : in bit_vector (0 to 15); rdata : in bit_vector (0 to 15); rfp : in bit_vector (0 to 15); rx_utop_addr : in bit_vector (0 to 4); tclk : in bit_vector (0 to 15); tx_utop_addr : in bit_vector (0 to 4); tx_utop_data : in bit_vector (0 to 7); mp_intr_n : inout bit; mp_data : inout bit_vector (0 to 7); tfp : inout bit_vector (0 to 15); gclk_out : out bit; jtdo : out bit; one_sec_st : out bit; ru_parity : out bit; rx_utop_soc : out bit; rlcd : out bit_vector (0 to 15); rx_utop_clav : out bit_vector (0 to 3); rx_utop_data : out bit_vector (0 to 7); tdata : out bit_vector (0 to 15); tx_utop_2clav : out bit_vector (0 to 3); tx_utop_clav : out bit_vector (0 to 3); NC : linkage bit_vector (1 to 17); VDD : linkage bit_vector (1 to 16); VSS : linkage bit_vector (1 to 20) ); use STD_1149_1_1994.all; attribute COMPONENT_CONFORMANCE of ds26102: entity is "STD_1149_1_1993"; attribute PIN_MAP of ds26102: entity is PHYSICAL_PIN_MAP; -- This section specifies the pin map for each port. This information -- is extracted from the port-to-pin map file that was read in using -- the "read_pin_map" command. constant PBGA_256: PIN_MAP_STRING := "bls : C14," & "clk_8k : J12," & "gclk_in : K13," & "jtclk : P16," & "jtdi : N16," & "jtms : P15," & "jtrst_n : N14," & "mp_bts : C16," & "mp_cs_n : D14," & "mp_mux : C15," & "mp_rd_n : D15," & "mp_wr_n : D13," & "ref_clk : L15," & "reset_n : L14," & "rx_utop_clk : K5," & "rx_utop_enb_n : J2," & "scan_enable : K15," & "scan_mode : K14," & "test_mode : K16," & "tu_parity : G5," & "tx_utop_clk : F2," & "tx_utop_enb_n : D1," & "tx_utop_soc : F3," & "ex_stat : (J16, J14, J15, H12, H13, H16, H14, H15)," & "mp_addr : (F16, F13, F12, G15, G14, G16, G13, G12)," & "rclk : (A14, B13, C12, D11, B11, A10, E9, C9, T6, M7, P7, N8, R8, T9, M10, P10)," & "rdata : (B14, A13, A12, E11, C11, D10, B10, A9, N6, R6, T7, M8, P8, N9, R9, T10)," & "rfp : (C13, D12, B12, A11, E10, C10, D9, B9, P6, N7, R7, T8, M9, P9, N10, R10)," & "rx_utop_addr : (J3, J1, J4, J5, H2)," & "tclk : (D8, B8, A7, E6, C6, D5, B5, D4, N11, R11, T12, T13, P13, P14, M16, L12)," & "tx_utop_addr : (D3, A2, C3, B3, A3)," & "tx_utop_data : (F1, F4, F5, E2, E3, E1, E4, D2)," & "mp_intr_n : B16," & "mp_data : (D16, E15, E14, E16, E13, E12, F15, F14)," & "tfp : (A8, E7, C7, D6, B6, A5, A4, C4, T11, M12, P12, R13, T14, T15, M14, L13)," & "gclk_out : K12," & "jtdo : N15," & "one_sec_st : J13," & "ru_parity : M2," & "rx_utop_soc : L2," & "rlcd : (N1, N2, N4, N3, P1, P2, R3, T3, P4, T4, R4, N5, T5, P5, R5, M6)," & "rx_utop_clav : (M5, M4, M1, M3)," & "rx_utop_data : (L3, L1, L4, L5, K2, K3, K1, K4)," & "tdata : (E8, C8, D7, B7, A6, E5, C5, B4, M11, P11, N12, R12, N13, R14, M13, M15)," & "tx_utop_2clav : (G1, H4, H1, H3)," & "tx_utop_clav : (G4, G3, G2, H5)," & "NC : (A1, A15, A16, B1, B2, B15, C1, C2, L16, P3, R1, R2, R15, R16, T1, T2, T16)," & "VDD : (F8, F9, G8, G9, H6, H7, H10, H11, J6, J7, J10, J11, K8, K9, L8, L9)," & "VSS : (F6, F7, F10, F11, G6, G7, G10, G11, H8, H9, J8, J9, K6, K7, K10, K11, L6, L7, L10, L11)"; -- This section specifies the TAP ports. -- For the TAP TCK port, the parameters in the brackets are: -- First Field : Maximum TCK frequency. -- Second Field: Allowable states TCK may be stopped in. attribute TAP_SCAN_CLOCK of jtclk : signal is (10.0e6, BOTH); attribute TAP_SCAN_IN of jtdi : signal is true; attribute TAP_SCAN_MODE of jtms : signal is true; attribute TAP_SCAN_OUT of jtdo : signal is true; attribute TAP_SCAN_RESET of jtrst_n: signal is true; -- Specifies the number of bits in the instruction register. attribute INSTRUCTION_LENGTH of ds26102: entity is 3; -- Specifies the boundary-scan instructions implemented in the -- design and their opcodes. attribute INSTRUCTION_OPCODE of ds26102: entity is "BYPASS (111)," & "EXTEST (000)," & "SAMPLE (010)," & "CLAMP (011)," & "HIGHZ (100)," & "USER1 (101)," & "USER2 (110)," & "IDCODE (001)"; -- Specifies the bit pattern that is loaded into the instruction -- register when the TAP controller passes through the Capture-IR -- state. The standard mandates that the two LSBs must be "01". -- The remaining bits are design specific. attribute INSTRUCTION_CAPTURE of ds26102: entity is "001"; -- Specifies the bit pattern that is loaded into the DEVICE_ID -- register during the IDCODE instruction when the TAP controller -- passes through the Capture-DR state. attribute IDCODE_REGISTER of ds26102: entity is "0000" & -- 4-bit version number "0000000000100111" & -- 16-bit part number "00010100001" & -- 11-bit identity of the manufacturer "1"; -- Required by IEEE Std 1149.1 -- This section specifies the test data register placed between TDI -- and TDO for each implemented instruction. attribute REGISTER_ACCESS of ds26102: entity is "BYPASS (BYPASS, CLAMP, HIGHZ, USER1, USER2)," & "BOUNDARY (EXTEST, SAMPLE)," & "DEVICE_ID (IDCODE)"; -- Specifies the length of the boundary scan register. attribute BOUNDARY_LENGTH of ds26102: entity is 245; -- The following list specifies the characteristics of each cell -- in the boundary scan register from TDI to TDO. -- The following is a description of the label fields: -- num : Is the cell number. -- cell : Is the cell type as defined by the standard. -- port : Is the design port name. Control cells do not -- have a port name. -- function: Is the function of the cell as defined by the -- standard. Is one of input, output2, output3, -- bidir, control or controlr. -- safe : Specifies the value that the BSR cell should be -- loaded with for safe operation when the software -- might otherwise choose a random value. -- ccell : The control cell number. Specifies the control -- cell that drives the output enable for this port. -- disval : Specifies the value that is loaded into the -- control cell to disable the output enable for -- the corresponding port. -- rslt : Resulting state. Shows the state of the driver -- when it is disabled. attribute BOUNDARY_REGISTER of ds26102: entity is -- -- num cell port function safe [ccell disval rslt] -- "244 (BC_2, tdata(14), output3, X, 161, 1, Z), " & "243 (BC_4, tclk(14), observe_only, X), " & "242 (BC_4, tfp(14), observe_only, X), " & "241 (BC_2, tfp(14), output3, X, 240, 1, Z), " & "240 (BC_2, *, controlr, 1), " & "239 (BC_2, tdata(15), output3, X, 161, 1, Z), " & "238 (BC_4, tclk(15), observe_only, X), " & "237 (BC_4, tfp(15), observe_only, X), " & "236 (BC_2, tfp(15), output3, X, 235, 1, Z), " & "235 (BC_2, *, controlr, 1), " & "234 (BC_4, reset_n, observe_only, X), " & "233 (BC_4, ref_clk, observe_only, X), " & "232 (BC_2, gclk_out, output3, X, 161, 1, Z), " & "231 (BC_4, gclk_in, observe_only, X), " & "230 (BC_4, clk_8k, observe_only, X), " & "229 (BC_2, one_sec_st, output3, X, 161, 1, Z), " & "228 (BC_4, ex_stat(0), observe_only, X), " & "227 (BC_4, ex_stat(1), observe_only, X), " & "226 (BC_4, ex_stat(2), observe_only, X), " & "225 (BC_4, ex_stat(3), observe_only, X), " & "224 (BC_4, ex_stat(4), observe_only, X), " & "223 (BC_4, ex_stat(5), observe_only, X), " & "222 (BC_4, ex_stat(6), observe_only, X), " & "221 (BC_4, ex_stat(7), observe_only, X), " & "220 (BC_4, mp_addr(7), observe_only, X), " & "219 (BC_4, mp_addr(6), observe_only, X), " & "218 (BC_4, mp_addr(5), observe_only, X), " & "217 (BC_4, mp_addr(4), observe_only, X), " & "216 (BC_4, mp_addr(3), observe_only, X), " & "215 (BC_4, mp_addr(2), observe_only, X), " & "214 (BC_4, mp_addr(1), observe_only, X), " & "213 (BC_4, mp_addr(0), observe_only, X), " & "212 (BC_4, mp_data(7), observe_only, X), " & "211 (BC_2, mp_data(7), output3, X, 210, 1, Z), " & "210 (BC_2, *, controlr, 1), " & "209 (BC_4, mp_data(6), observe_only, X), " & "208 (BC_2, mp_data(6), output3, X, 210, 1, Z), " & "207 (BC_4, mp_data(5), observe_only, X), " & "206 (BC_2, mp_data(5), output3, X, 210, 1, Z), " & "205 (BC_4, mp_data(4), observe_only, X), " & "204 (BC_2, mp_data(4), output3, X, 210, 1, Z), " & "203 (BC_4, mp_data(3), observe_only, X), " & "202 (BC_2, mp_data(3), output3, X, 210, 1, Z), " & "201 (BC_4, mp_data(2), observe_only, X), " & "200 (BC_2, mp_data(2), output3, X, 210, 1, Z), " & "199 (BC_4, mp_data(1), observe_only, X), " & "198 (BC_2, mp_data(1), output3, X, 210, 1, Z), " & "197 (BC_4, mp_data(0), observe_only, X), " & "196 (BC_2, mp_data(0), output3, X, 210, 1, Z), " & "195 (BC_4, mp_rd_n, observe_only, X), " & "194 (BC_4, mp_wr_n, observe_only, X), " & "193 (BC_4, mp_cs_n, observe_only, X), " & "192 (BC_4, mp_bts, observe_only, X), " & "191 (BC_4, mp_mux, observe_only, X), " & "190 (BC_4, bls, observe_only, X), " & "189 (BC_4, mp_intr_n, observe_only, X), " & "188 (BC_0, *, internal, 0), " & "187 (BC_2, mp_intr_n, output2, 1, 187, 1, WEAK1)," & "186 (BC_4, rdata(0), observe_only, X), " & "185 (BC_4, rclk(0), observe_only, X), " & "184 (BC_4, rfp(0), observe_only, X), " & "183 (BC_4, rdata(1), observe_only, X), " & "182 (BC_4, rclk(1), observe_only, X), " & "181 (BC_4, rfp(1), observe_only, X), " & "180 (BC_4, rdata(2), observe_only, X), " & "179 (BC_4, rclk(2), observe_only, X), " & "178 (BC_4, rfp(2), observe_only, X), " & "177 (BC_4, rdata(3), observe_only, X), " & "176 (BC_4, rclk(3), observe_only, X), " & "175 (BC_4, rfp(3), observe_only, X), " & "174 (BC_4, rdata(4), observe_only, X), " & "173 (BC_4, rclk(4), observe_only, X), " & "172 (BC_4, rfp(4), observe_only, X), " & "171 (BC_4, rdata(5), observe_only, X), " & "170 (BC_4, rclk(5), observe_only, X), " & "169 (BC_4, rfp(5), observe_only, X), " & "168 (BC_4, rdata(6), observe_only, X), " & "167 (BC_4, rclk(6), observe_only, X), " & "166 (BC_4, rfp(6), observe_only, X), " & "165 (BC_4, rdata(7), observe_only, X), " & "164 (BC_4, rclk(7), observe_only, X), " & "163 (BC_4, rfp(7), observe_only, X), " & "162 (BC_2, tdata(0), output3, X, 161, 1, Z), " & "161 (BC_2, *, controlr, 1), " & "160 (BC_4, tclk(0), observe_only, X), " & "159 (BC_4, tfp(0), observe_only, X), " & "158 (BC_2, tfp(0), output3, X, 157, 1, Z), " & "157 (BC_2, *, controlr, 1), " & "156 (BC_2, tdata(1), output3, X, 161, 1, Z), " & "155 (BC_4, tclk(1), observe_only, X), " & "154 (BC_4, tfp(1), observe_only, X), " & "153 (BC_2, tfp(1), output3, X, 152, 1, Z), " & "152 (BC_2, *, controlr, 1), " & "151 (BC_2, tdata(2), output3, X, 161, 1, Z), " & "150 (BC_4, tclk(2), observe_only, X), " & "149 (BC_4, tfp(2), observe_only, X), " & "148 (BC_2, tfp(2), output3, X, 147, 1, Z), " & "147 (BC_2, *, controlr, 1), " & "146 (BC_2, tdata(3), output3, X, 161, 1, Z), " & "145 (BC_4, tclk(3), observe_only, X), " & "144 (BC_4, tfp(3), observe_only, X), " & "143 (BC_2, tfp(3), output3, X, 142, 1, Z), " & "142 (BC_2, *, controlr, 1), " & "141 (BC_2, tdata(4), output3, X, 161, 1, Z), " & "140 (BC_4, tclk(4), observe_only, X), " & "139 (BC_4, tfp(4), observe_only, X), " & "138 (BC_2, tfp(4), output3, X, 137, 1, Z), " & "137 (BC_2, *, controlr, 1), " & "136 (BC_2, tdata(5), output3, X, 161, 1, Z), " & "135 (BC_4, tclk(5), observe_only, X), " & "134 (BC_4, tfp(5), observe_only, X), " & "133 (BC_2, tfp(5), output3, X, 132, 1, Z), " & "132 (BC_2, *, controlr, 1), " & "131 (BC_2, tdata(6), output3, X, 161, 1, Z), " & "130 (BC_4, tclk(6), observe_only, X), " & "129 (BC_4, tfp(6), observe_only, X), " & "128 (BC_2, tfp(6), output3, X, 127, 1, Z), " & "127 (BC_2, *, controlr, 1), " & "126 (BC_2, tdata(7), output3, X, 161, 1, Z), " & "125 (BC_4, tclk(7), observe_only, X), " & "124 (BC_4, tfp(7), observe_only, X), " & "123 (BC_2, tfp(7), output3, X, 122, 1, Z), " & "122 (BC_2, *, controlr, 1), " & "121 (BC_4, tx_utop_addr(4), observe_only, X), " & "120 (BC_4, tx_utop_addr(3), observe_only, X), " & "119 (BC_4, tx_utop_addr(2), observe_only, X), " & "118 (BC_4, tx_utop_addr(1), observe_only, X), " & "117 (BC_4, tx_utop_addr(0), observe_only, X), " & "116 (BC_4, tx_utop_enb_n, observe_only, X), " & "115 (BC_4, tx_utop_data(7), observe_only, X), " & "114 (BC_4, tx_utop_data(6), observe_only, X), " & "113 (BC_4, tx_utop_data(5), observe_only, X), " & "112 (BC_4, tx_utop_data(4), observe_only, X), " & "111 (BC_4, tx_utop_data(3), observe_only, X), " & "110 (BC_4, tx_utop_data(2), observe_only, X), " & "109 (BC_4, tx_utop_data(1), observe_only, X), " & "108 (BC_4, tx_utop_data(0), observe_only, X), " & "107 (BC_4, tx_utop_soc, observe_only, X), " & "106 (BC_4, tx_utop_clk, observe_only, X), " & "105 (BC_4, tu_parity, observe_only, X), " & "104 (BC_2, tx_utop_clav(0), output3, X, 103, 1, Z), " & "103 (BC_2, *, controlr, 1), " & "102 (BC_2, tx_utop_2clav(0), output3, X, 103, 1, Z), " & "101 (BC_2, tx_utop_clav(1), output3, X, 100, 1, Z), " & "100 (BC_2, *, controlr, 1), " & "99 (BC_2, tx_utop_clav(2), output3, X, 100, 1, Z), " & "98 (BC_2, tx_utop_clav(3), output3, X, 100, 1, Z), " & "97 (BC_2, tx_utop_2clav(1), output3, X, 100, 1, Z), " & "96 (BC_2, tx_utop_2clav(2), output3, X, 100, 1, Z), " & "95 (BC_2, tx_utop_2clav(3), output3, X, 100, 1, Z), " & "94 (BC_4, rx_utop_addr(4), observe_only, X), " & "93 (BC_4, rx_utop_addr(3), observe_only, X), " & "92 (BC_4, rx_utop_addr(2), observe_only, X), " & "91 (BC_4, rx_utop_addr(1), observe_only, X), " & "90 (BC_4, rx_utop_addr(0), observe_only, X), " & "89 (BC_4, rx_utop_enb_n, observe_only, X), " & "88 (BC_4, rx_utop_clk, observe_only, X), " & "87 (BC_2, rx_utop_data(7), output3, X, 86, 1, Z), " & "86 (BC_2, *, controlr, 1), " & "85 (BC_2, rx_utop_data(6), output3, X, 86, 1, Z), " & "84 (BC_2, rx_utop_data(5), output3, X, 86, 1, Z), " & "83 (BC_2, rx_utop_data(4), output3, X, 86, 1, Z), " & "82 (BC_2, rx_utop_data(3), output3, X, 86, 1, Z), " & "81 (BC_2, rx_utop_data(2), output3, X, 86, 1, Z), " & "80 (BC_2, rx_utop_data(1), output3, X, 86, 1, Z), " & "79 (BC_2, rx_utop_data(0), output3, X, 86, 1, Z), " & "78 (BC_2, rx_utop_soc, output3, X, 77, 1, Z), " & "77 (BC_2, *, controlr, 1), " & "76 (BC_2, rx_utop_clav(0), output3, X, 75, 1, Z), " & "75 (BC_2, *, controlr, 1), " & "74 (BC_2, rx_utop_clav(1), output3, X, 73, 1, Z), " & "73 (BC_2, *, controlr, 1), " & "72 (BC_2, rx_utop_clav(2), output3, X, 73, 1, Z), " & "71 (BC_2, rx_utop_clav(3), output3, X, 73, 1, Z), " & "70 (BC_2, ru_parity, output3, X, 77, 1, Z), " & "69 (BC_2, rlcd(0), output3, X, 161, 1, Z), " & "68 (BC_2, rlcd(1), output3, X, 161, 1, Z), " & "67 (BC_2, rlcd(2), output3, X, 161, 1, Z), " & "66 (BC_2, rlcd(3), output3, X, 161, 1, Z), " & "65 (BC_2, rlcd(4), output3, X, 161, 1, Z), " & "64 (BC_2, rlcd(5), output3, X, 161, 1, Z), " & "63 (BC_2, rlcd(6), output3, X, 161, 1, Z), " & "62 (BC_2, rlcd(7), output3, X, 161, 1, Z), " & "61 (BC_2, rlcd(8), output3, X, 161, 1, Z), " & "60 (BC_2, rlcd(9), output3, X, 161, 1, Z), " & "59 (BC_2, rlcd(10), output3, X, 161, 1, Z), " & "58 (BC_2, rlcd(11), output3, X, 161, 1, Z), " & "57 (BC_2, rlcd(12), output3, X, 161, 1, Z), " & "56 (BC_2, rlcd(13), output3, X, 161, 1, Z), " & "55 (BC_2, rlcd(14), output3, X, 161, 1, Z), " & "54 (BC_2, rlcd(15), output3, X, 161, 1, Z), " & "53 (BC_4, rdata(8), observe_only, X), " & "52 (BC_4, rclk(8), observe_only, X), " & "51 (BC_4, rfp(8), observe_only, X), " & "50 (BC_4, rdata(9), observe_only, X), " & "49 (BC_4, rclk(9), observe_only, X), " & "48 (BC_4, rfp(9), observe_only, X), " & "47 (BC_4, rdata(10), observe_only, X), " & "46 (BC_4, rclk(10), observe_only, X), " & "45 (BC_4, rfp(10), observe_only, X), " & "44 (BC_4, rdata(11), observe_only, X), " & "43 (BC_4, rclk(11), observe_only, X), " & "42 (BC_4, rfp(11), observe_only, X), " & "41 (BC_4, rdata(12), observe_only, X), " & "40 (BC_4, rclk(12), observe_only, X), " & "39 (BC_4, rfp(12), observe_only, X), " & "38 (BC_4, rdata(13), observe_only, X), " & "37 (BC_4, rclk(13), observe_only, X), " & "36 (BC_4, rfp(13), observe_only, X), " & "35 (BC_4, rdata(14), observe_only, X), " & "34 (BC_4, rclk(14), observe_only, X), " & "33 (BC_4, rfp(14), observe_only, X), " & "32 (BC_4, rdata(15), observe_only, X), " & "31 (BC_4, rclk(15), observe_only, X), " & "30 (BC_4, rfp(15), observe_only, X), " & "29 (BC_2, tdata(8), output3, X, 161, 1, Z), " & "28 (BC_4, tclk(8), observe_only, X), " & "27 (BC_4, tfp(8), observe_only, X), " & "26 (BC_2, tfp(8), output3, X, 25, 1, Z), " & "25 (BC_2, *, controlr, 1), " & "24 (BC_2, tdata(9), output3, X, 161, 1, Z), " & "23 (BC_4, tclk(9), observe_only, X), " & "22 (BC_4, tfp(9), observe_only, X), " & "21 (BC_2, tfp(9), output3, X, 20, 1, Z), " & "20 (BC_2, *, controlr, 1), " & "19 (BC_2, tdata(10), output3, X, 161, 1, Z), " & "18 (BC_4, tclk(10), observe_only, X), " & "17 (BC_4, tfp(10), observe_only, X), " & "16 (BC_2, tfp(10), output3, X, 15, 1, Z), " & "15 (BC_2, *, controlr, 1), " & "14 (BC_2, tdata(11), output3, X, 161, 1, Z), " & "13 (BC_4, tclk(11), observe_only, X), " & "12 (BC_4, tfp(11), observe_only, X), " & "11 (BC_2, tfp(11), output3, X, 10, 1, Z), " & "10 (BC_2, *, controlr, 1), " & "9 (BC_2, tdata(12), output3, X, 161, 1, Z), " & "8 (BC_4, tclk(12), observe_only, X), " & "7 (BC_4, tfp(12), observe_only, X), " & "6 (BC_2, tfp(12), output3, X, 5, 1, Z), " & "5 (BC_2, *, controlr, 1), " & "4 (BC_2, tdata(13), output3, X, 161, 1, Z), " & "3 (BC_4, tclk(13), observe_only, X), " & "2 (BC_4, tfp(13), observe_only, X), " & "1 (BC_2, tfp(13), output3, X, 0, 1, Z), " & "0 (BC_2, *, controlr, 1) "; end ds26102;