mirror of https://github.com/VLSIDA/OpenRAM.git
682 lines
24 KiB
SourcePawn
682 lines
24 KiB
SourcePawn
* OpenRAM generated memory.
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* User: mrg
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.global vdd gnd
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*master-slave flip-flop with both output and inverted ouput
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.subckt ms_flop din dout dout_bar clk vdd gnd
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xmaster din mout mout_bar clk clk_bar vdd gnd dlatch
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xslave mout_bar dout_bar dout clk_bar clk_nn vdd gnd dlatch
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.ends flop
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.subckt dlatch din dout dout_bar clk clk_bar vdd gnd
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*clk inverter
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mPff1 clk_bar clk vdd vdd p W=1.8u L=0.6u m=1
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mNff1 clk_bar clk gnd gnd n W=0.9u L=0.6u m=1
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*transmission gate 1
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mtmP1 din clk int1 vdd p W=1.8u L=0.6u m=1
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mtmN1 din clk_bar int1 gnd n W=0.9u L=0.6u m=1
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*foward inverter
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mPff3 dout_bar int1 vdd vdd p W=1.8u L=0.6u m=1
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mNff3 dout_bar int1 gnd gnd n W=0.9u L=0.6u m=1
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*backward inverter
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mPff4 dout dout_bar vdd vdd p W=1.8u L=0.6u m=1
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mNf4 dout dout_bar gnd gnd n W=0.9u L=0.6u m=1
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*transmission gate 2
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mtmP2 int1 clk_bar dout vdd p W=1.8u L=0.6u m=1
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mtmN2 int1 clk dout gnd n W=0.9u L=0.6u m=1
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.ends dlatch
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.SUBCKT inv_nmos11 D G S B
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Mnmos D G S B n m=1 w=1.2u l=0.6u
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.ENDS inv_nmos11
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.SUBCKT inv_pmos12 D G S B
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Mpmos D G S B p m=1 w=2.4u l=0.6u
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.ENDS inv_pmos12
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.SUBCKT pinv A Z vdd gnd
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Xpinv_nmos Z A gnd gnd inv_nmos11
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Xpinv_pmos Z A vdd vdd inv_pmos12
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.ENDS pinv
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.SUBCKT nand_2_nmos13 D G S B
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Mnmos D G S B n m=1 w=2.4u l=0.6u
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.ENDS nand_2_nmos13
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.SUBCKT nand_2_nmos24 D G S B
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Mnmos D G S B n m=1 w=2.4u l=0.6u
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.ENDS nand_2_nmos24
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.SUBCKT nand_2_pmos15 D G S B
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Mpmos D G S B p m=1 w=2.4u l=0.6u
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.ENDS nand_2_pmos15
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.SUBCKT nand_2_pmos26 D G S B
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Mpmos D G S B p m=1 w=2.4u l=0.6u
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.ENDS nand_2_pmos26
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.SUBCKT nand2 A B Z vdd gnd
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Xnmos1 Z A net1 gnd nand_2_nmos13
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Xnmos2 net1 B gnd gnd nand_2_nmos24
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Xpmos1 vdd A Z vdd nand_2_pmos15
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Xpmos2 Z B vdd vdd nand_2_pmos26
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.ENDS nand2
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.SUBCKT nand_3_nmos17 D G S B
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Mnmos D G S B n m=1 w=3.6u l=0.6u
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.ENDS nand_3_nmos17
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.SUBCKT nand_3_nmos28 D G S B
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Mnmos D G S B n m=1 w=3.6u l=0.6u
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.ENDS nand_3_nmos28
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.SUBCKT nand_3_nmos39 D G S B
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Mnmos D G S B n m=1 w=3.6u l=0.6u
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.ENDS nand_3_nmos39
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.SUBCKT nand_3_pmos110 D G S B
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Mpmos D G S B p m=1 w=2.4u l=0.6u
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.ENDS nand_3_pmos110
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.SUBCKT nand_3_pmos211 D G S B
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Mpmos D G S B p m=1 w=2.4u l=0.6u
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.ENDS nand_3_pmos211
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.SUBCKT nand_3_pmos312 D G S B
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Mpmos D G S B p m=1 w=2.4u l=0.6u
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.ENDS nand_3_pmos312
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.SUBCKT NAND3 A B C Z vdd gnd
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Xnmos1 net2 A gnd gnd nand_3_nmos17
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Xnmos2 net1 B net2 gnd nand_3_nmos28
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Xnmos3 Z C net1 gnd nand_3_nmos39
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Xpmos1 Z A vdd vdd nand_3_pmos110
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Xpmos2 vdd B Z vdd nand_3_pmos211
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Xpmos3 Z C vdd vdd nand_3_pmos312
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.ENDS NAND3
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.SUBCKT inv_nmos113 D G S B
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Mnmos D G S B n m=4 w=1.2u l=0.6u
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.ENDS inv_nmos113
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.SUBCKT inv_pmos114 D G S B
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Mpmos D G S B p m=4 w=2.4u l=0.6u
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.ENDS inv_pmos114
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.SUBCKT pinv4 A Z vdd gnd
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Xpinv_nmos Z A gnd gnd inv_nmos113
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Xpinv_pmos Z A vdd vdd inv_pmos114
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.ENDS pinv4
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.SUBCKT nor_2_nmos123 D G S B
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Mnmos D G S B n m=1 w=1.2u l=0.6u
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.ENDS nor_2_nmos123
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.SUBCKT nor_2_nmos224 D G S B
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Mnmos D G S B n m=1 w=1.2u l=0.6u
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.ENDS nor_2_nmos224
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.SUBCKT nor_2_pmos125 D G S B
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Mpmos D G S B p m=4 w=1.2u l=0.6u
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.ENDS nor_2_pmos125
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.SUBCKT nor_2_pmos226 D G S B
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Mpmos D G S B p m=4 w=1.2u l=0.6u
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.ENDS nor_2_pmos226
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.SUBCKT nor2 A B Z vdd gnd
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Xnmos1 Z A gnd gnd nor_2_nmos123
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Xnmos2 Z B gnd gnd nor_2_nmos224
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Xpmos1 vdd A net1 vdd nor_2_pmos125
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Xpmos2 net1 B Z vdd nor_2_pmos226
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.ENDS nor2
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.SUBCKT msf_control data[0] data[1] data[2] data_in[0] data_in_bar[0] data_in[1] data_in_bar[1] data_in[2] data_in_bar[2] clk vdd gnd
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XXdff0 data[0] data_in[0] data_in_bar[0] clk vdd gnd ms_flop
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XXdff1 data[1] data_in[1] data_in_bar[1] clk vdd gnd ms_flop
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XXdff2 data[2] data_in[2] data_in_bar[2] clk vdd gnd ms_flop
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.ENDS msf_control
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*********************** "cell_6t" ******************************
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.SUBCKT replica_cell_6t bl br wl vdd gnd
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M_1 gnd net_2 vdd vdd p W='0.9u' L=1.2u
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M_2 net_2 gnd vdd vdd p W='0.9u' L=1.2u
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M_3 br wl net_2 gnd n W='1.2u' L=0.6u
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M_4 bl wl gnd gnd n W='1.2u' L=0.6u
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M_5 net_2 gnd gnd gnd n W='2.4u' L=0.6u
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M_6 gnd net_2 gnd gnd n W='2.4u' L=0.6u
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.ENDS $ replica_cell_6t
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*********************** "cell_6t" ******************************
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.SUBCKT cell_6t bl br wl vdd gnd
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M_1 net_1 net_2 vdd vdd p W='0.9u' L=1.2u
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M_2 net_2 net_1 vdd vdd p W='0.9u' L=1.2u
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M_3 br wl net_2 gnd n W='1.2u' L=0.6u
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M_4 bl wl net_1 gnd n W='1.2u' L=0.6u
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M_5 net_2 net_1 gnd gnd n W='2.4u' L=0.6u
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M_6 net_1 net_2 gnd gnd n W='2.4u' L=0.6u
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.ENDS $ cell_6t
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.SUBCKT bitline_load bl[0] br[0] wl[0] wl[1] vdd gnd
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Xbit_r0_c0 bl[0] br[0] wl[0] vdd gnd cell_6t
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Xbit_r1_c0 bl[0] br[0] wl[1] vdd gnd cell_6t
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.ENDS bitline_load
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.SUBCKT inv_nmos127 D G S B
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Mnmos D G S B n m=1 w=1.2u l=0.6u
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.ENDS inv_nmos127
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.SUBCKT inv_pmos128 D G S B
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Mpmos D G S B p m=1 w=3.6u l=0.6u
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.ENDS inv_pmos128
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.SUBCKT delay_chain_inv A Z vdd gnd
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Xpinv_nmos Z A gnd gnd inv_nmos127
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Xpinv_pmos Z A vdd vdd inv_pmos128
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.ENDS delay_chain_inv
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.SUBCKT delay_chain clk_in clk_out vdd gnd
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Xinv_chain0 clk_in s1 vdd gnd delay_chain_inv
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Xinv_chain1 s1 s2 vdd gnd delay_chain_inv
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Xinv_chain2 s2 s3 vdd gnd delay_chain_inv
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Xinv_chain3 s3 clk_out vdd gnd delay_chain_inv
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.ENDS delay_chain
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.SUBCKT inv_nmos129 D G S B
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Mnmos D G S B n m=1 w=1.2u l=0.6u
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.ENDS inv_nmos129
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.SUBCKT inv_pmos130 D G S B
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Mpmos D G S B p m=1 w=3.6u l=0.6u
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.ENDS inv_pmos130
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.SUBCKT RBL_inv A Z vdd gnd
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Xpinv_nmos Z A gnd gnd inv_nmos129
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Xpinv_pmos Z A vdd vdd inv_pmos130
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.ENDS RBL_inv
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.SUBCKT nor_2_nmos139 D G S B
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Mnmos D G S B n m=1 w=1.2u l=0.6u
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.ENDS nor_2_nmos139
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.SUBCKT nor_2_nmos240 D G S B
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Mnmos D G S B n m=1 w=1.2u l=0.6u
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.ENDS nor_2_nmos240
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.SUBCKT nor_2_pmos141 D G S B
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Mpmos D G S B p m=4 w=1.2u l=0.6u
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.ENDS nor_2_pmos141
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.SUBCKT nor_2_pmos242 D G S B
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Mpmos D G S B p m=4 w=1.2u l=0.6u
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.ENDS nor_2_pmos242
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.SUBCKT replica_bitline_nor2 A B Z vdd gnd
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Xnmos1 Z A gnd gnd nor_2_nmos139
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Xnmos2 Z B gnd gnd nor_2_nmos240
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Xpmos1 vdd A net1 vdd nor_2_pmos141
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Xpmos2 net1 B Z vdd nor_2_pmos242
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.ENDS replica_bitline_nor2
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.SUBCKT access_tx43 D G S B
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Mpmos D G S B p m=1 w=1.2u l=0.6u
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.ENDS access_tx43
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.SUBCKT replica_bitline en out vdd gnd
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XBL_inv bl[0] out vdd gnd RBL_inv
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XBL_access_tx vdd delayed_en bl[0] vdd access_tx43
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Xdelay_chain en delayed_en vdd gnd delay_chain
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Xbitcell bl[0] br[0] delayed_en vdd gnd replica_cell_6t
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Xload bl[0] br[0] gnd gnd vdd gnd bitline_load
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.ENDS replica_bitline
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.SUBCKT control_logic CSb WEb OEb s_en w_en tri_en tri_en_bar clk_bar clk vdd gnd
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Xmsf_control CSb WEb OEb CS_bar CS WE_bar WE OE_bar OE clk vdd gnd msf_control
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Xclk_inverter clk clk_bar vdd gnd pinv4
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Xnor2 clk OE_bar tri_en vdd gnd nor2
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Xnand2_tri_en OE clk_bar tri_en_bar vdd gnd nand2
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Xreplica_bitline rblk pre_s_en vdd gnd replica_bitline
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Xinv_s_en1 pre_s_en_bar s_en vdd gnd pinv
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Xinv_s_en2 pre_s_en pre_s_en_bar vdd gnd pinv
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XNAND3_rblk_bar clk_bar OE CS rblk_bar vdd gnd NAND3
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XNAND3_w_en_bar clk_bar WE CS w_en_bar vdd gnd NAND3
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Xinv_rblk rblk_bar rblk vdd gnd pinv
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Xinv_w_en w_en_bar pre_w_en vdd gnd pinv
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Xinv_w_en1 pre_w_en pre_w_en1 vdd gnd pinv
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Xinv_w_en2 pre_w_en1 w_en vdd gnd pinv
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.ENDS control_logic
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.SUBCKT bitcell_array bl[0] br[0] bl[1] br[1] wl[0] wl[1] wl[2] wl[3] wl[4] wl[5] wl[6] wl[7] wl[8] wl[9] wl[10] wl[11] wl[12] wl[13] wl[14] wl[15] vdd gnd
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Xbit_r0_c0 bl[0] br[0] wl[0] vdd gnd cell_6t
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Xbit_r1_c0 bl[0] br[0] wl[1] vdd gnd cell_6t
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Xbit_r2_c0 bl[0] br[0] wl[2] vdd gnd cell_6t
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Xbit_r3_c0 bl[0] br[0] wl[3] vdd gnd cell_6t
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Xbit_r4_c0 bl[0] br[0] wl[4] vdd gnd cell_6t
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Xbit_r5_c0 bl[0] br[0] wl[5] vdd gnd cell_6t
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Xbit_r6_c0 bl[0] br[0] wl[6] vdd gnd cell_6t
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Xbit_r7_c0 bl[0] br[0] wl[7] vdd gnd cell_6t
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Xbit_r8_c0 bl[0] br[0] wl[8] vdd gnd cell_6t
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Xbit_r9_c0 bl[0] br[0] wl[9] vdd gnd cell_6t
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Xbit_r10_c0 bl[0] br[0] wl[10] vdd gnd cell_6t
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Xbit_r11_c0 bl[0] br[0] wl[11] vdd gnd cell_6t
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Xbit_r12_c0 bl[0] br[0] wl[12] vdd gnd cell_6t
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Xbit_r13_c0 bl[0] br[0] wl[13] vdd gnd cell_6t
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Xbit_r14_c0 bl[0] br[0] wl[14] vdd gnd cell_6t
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Xbit_r15_c0 bl[0] br[0] wl[15] vdd gnd cell_6t
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Xbit_r0_c1 bl[1] br[1] wl[0] vdd gnd cell_6t
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Xbit_r1_c1 bl[1] br[1] wl[1] vdd gnd cell_6t
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Xbit_r2_c1 bl[1] br[1] wl[2] vdd gnd cell_6t
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Xbit_r3_c1 bl[1] br[1] wl[3] vdd gnd cell_6t
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Xbit_r4_c1 bl[1] br[1] wl[4] vdd gnd cell_6t
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Xbit_r5_c1 bl[1] br[1] wl[5] vdd gnd cell_6t
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Xbit_r6_c1 bl[1] br[1] wl[6] vdd gnd cell_6t
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Xbit_r7_c1 bl[1] br[1] wl[7] vdd gnd cell_6t
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Xbit_r8_c1 bl[1] br[1] wl[8] vdd gnd cell_6t
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Xbit_r9_c1 bl[1] br[1] wl[9] vdd gnd cell_6t
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Xbit_r10_c1 bl[1] br[1] wl[10] vdd gnd cell_6t
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Xbit_r11_c1 bl[1] br[1] wl[11] vdd gnd cell_6t
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Xbit_r12_c1 bl[1] br[1] wl[12] vdd gnd cell_6t
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Xbit_r13_c1 bl[1] br[1] wl[13] vdd gnd cell_6t
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Xbit_r14_c1 bl[1] br[1] wl[14] vdd gnd cell_6t
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Xbit_r15_c1 bl[1] br[1] wl[15] vdd gnd cell_6t
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.ENDS bitcell_array
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.SUBCKT lower_pmos44 D G S B
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Mpmos D G S B p m=1 w=1.2u l=0.6u
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.ENDS lower_pmos44
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.SUBCKT upper_pmos45 D G S B
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Mpmos D G S B p m=1 w=2.4u l=0.6u
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.ENDS upper_pmos45
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.SUBCKT precharge_cell bl br clk vdd
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Xlower_pmos bl clk br vdd lower_pmos44
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Xupper_pmos1 bl clk vdd vdd upper_pmos45
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Xupper_pmos2 br clk vdd vdd upper_pmos45
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.ENDS precharge_cell
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.SUBCKT precharge_array bl[0] br[0] bl[1] br[1] clk vdd
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Xpre_column_0 bl[0] br[0] clk vdd precharge_cell
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Xpre_column_1 bl[1] br[1] clk vdd precharge_cell
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.ENDS precharge_array
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*********************** "sense_amp" ******************************
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.SUBCKT sense_amp bl br dout sclk vdd gnd
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M_1 dout net_1 vdd vdd p W='5.4*1u' L=0.6u
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M_2 dout net_1 net_2 gnd n W='2.7*1u' L=0.6u
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M_3 net_1 dout vdd vdd p W='5.4*1u' L=0.6u
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M_4 net_1 dout net_2 gnd n W='2.7*1u' L=0.6u
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M_5 bl sclk dout vdd p W='7.2*1u' L=0.6u
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M_6 br sclk net_1 vdd p W='7.2*1u' L=0.6u
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M_7 net_2 sclk gnd gnd n W='2.7*1u' L=0.6u
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.ENDS sense_amp
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.SUBCKT sense_amp_array bl[0] br[0] bl[1] br[1] data_out[0] data_out[1] sclk vdd gnd
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Xsa_d0 bl[0] br[0] data_out[0] sclk vdd gnd sense_amp
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Xsa_d1 bl[1] br[1] data_out[1] sclk vdd gnd sense_amp
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.ENDS sense_amp_array
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*********************** Write_Driver ******************************
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.SUBCKT write_driver din bl br wen vdd gnd
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**** Inverter to conver Data_in to data_in_bar ******
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M_1 net_3 din gnd gnd n W='1.2*1u' L=0.6u
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M_2 net_3 din vdd vdd p W='2.1*1u' L=0.6u
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**** 2input nand gate follwed by inverter to drive BL ******
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M_3 net_2 wen net_7 gnd n W='2.1*1u' L=0.6u
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M_4 net_7 din gnd gnd n W='2.1*1u' L=0.6u
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M_5 net_2 wen vdd vdd p W='2.1*1u' L=0.6u
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M_6 net_2 din vdd vdd p W='2.1*1u' L=0.6u
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M_7 net_1 net_2 vdd vdd p W='2.1*1u' L=0.6u
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M_8 net_1 net_2 gnd gnd n W='1.2*1u' L=0.6u
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**** 2input nand gate follwed by inverter to drive BR******
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M_9 net_4 wen vdd vdd p W='2.1*1u' L=0.6u
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M_10 net_4 wen net_8 gnd n W='2.1*1u' L=0.6u
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M_11 net_8 net_3 gnd gnd n W='2.1*1u' L=0.6u
|
|
M_12 net_4 net_3 vdd vdd p W='2.1*1u' L=0.6u
|
|
|
|
M_13 net_6 net_4 vdd vdd p W='2.1*1u' L=0.6u
|
|
M_14 net_6 net_4 gnd gnd n W='1.2*1u' L=0.6u
|
|
|
|
************************************************
|
|
|
|
M_15 bl net_6 net_5 gnd n W='3.6*1u' L=0.6u
|
|
M_16 br net_1 net_5 gnd n W='3.6*1u' L=0.6u
|
|
M_17 net_5 wen gnd gnd n W='3.6*1u' L=0.6u
|
|
|
|
|
|
|
|
.ENDS $ write_driver
|
|
|
|
|
|
.SUBCKT write_driver_array data_in[0] data_in[1] bl[0] br[0] bl[1] br[1] wen vdd gnd
|
|
XXwrite_driver0 data_in[0] bl[0] br[0] wen vdd gnd write_driver
|
|
XXwrite_driver1 data_in[1] bl[1] br[1] wen vdd gnd write_driver
|
|
.ENDS write_driver_array
|
|
|
|
.SUBCKT inv_nmos147 D G S B
|
|
Mnmos D G S B n m=1 w=1.2u l=0.6u
|
|
.ENDS inv_nmos147
|
|
|
|
.SUBCKT inv_pmos148 D G S B
|
|
Mpmos D G S B p m=1 w=2.4u l=0.6u
|
|
.ENDS inv_pmos148
|
|
|
|
.SUBCKT INVERTER A Z vdd gnd
|
|
Xpinv_nmos Z A gnd gnd inv_nmos147
|
|
Xpinv_pmos Z A vdd vdd inv_pmos148
|
|
.ENDS INVERTER
|
|
|
|
.SUBCKT nand_2_nmos149 D G S B
|
|
Mnmos D G S B n m=1 w=2.4u l=0.6u
|
|
.ENDS nand_2_nmos149
|
|
|
|
.SUBCKT nand_2_nmos250 D G S B
|
|
Mnmos D G S B n m=1 w=2.4u l=0.6u
|
|
.ENDS nand_2_nmos250
|
|
|
|
.SUBCKT nand_2_pmos151 D G S B
|
|
Mpmos D G S B p m=1 w=2.4u l=0.6u
|
|
.ENDS nand_2_pmos151
|
|
|
|
.SUBCKT nand_2_pmos252 D G S B
|
|
Mpmos D G S B p m=1 w=2.4u l=0.6u
|
|
.ENDS nand_2_pmos252
|
|
|
|
.SUBCKT NAND2 A B Z vdd gnd
|
|
Xnmos1 Z A net1 gnd nand_2_nmos149
|
|
Xnmos2 net1 B gnd gnd nand_2_nmos250
|
|
Xpmos1 vdd A Z vdd nand_2_pmos151
|
|
Xpmos2 Z B vdd vdd nand_2_pmos252
|
|
.ENDS NAND2
|
|
|
|
.SUBCKT nand_2_nmos159 D G S B
|
|
Mnmos D G S B n m=1 w=2.4u l=0.6u
|
|
.ENDS nand_2_nmos159
|
|
|
|
.SUBCKT nand_2_nmos260 D G S B
|
|
Mnmos D G S B n m=1 w=2.4u l=0.6u
|
|
.ENDS nand_2_nmos260
|
|
|
|
.SUBCKT nand_2_pmos161 D G S B
|
|
Mpmos D G S B p m=1 w=2.4u l=0.6u
|
|
.ENDS nand_2_pmos161
|
|
|
|
.SUBCKT nand_2_pmos262 D G S B
|
|
Mpmos D G S B p m=1 w=2.4u l=0.6u
|
|
.ENDS nand_2_pmos262
|
|
|
|
.SUBCKT a_nand_2 A B Z vdd gnd
|
|
Xnmos1 Z A net1 gnd nand_2_nmos159
|
|
Xnmos2 net1 B gnd gnd nand_2_nmos260
|
|
Xpmos1 vdd A Z vdd nand_2_pmos161
|
|
Xpmos2 Z B vdd vdd nand_2_pmos262
|
|
.ENDS a_nand_2
|
|
|
|
.SUBCKT inv_nmos163 D G S B
|
|
Mnmos D G S B n m=1 w=1.2u l=0.6u
|
|
.ENDS inv_nmos163
|
|
|
|
.SUBCKT inv_pmos164 D G S B
|
|
Mpmos D G S B p m=1 w=2.4u l=0.6u
|
|
.ENDS inv_pmos164
|
|
|
|
.SUBCKT a_inv_1 A Z vdd gnd
|
|
Xpinv_nmos Z A gnd gnd inv_nmos163
|
|
Xpinv_pmos Z A vdd vdd inv_pmos164
|
|
.ENDS a_inv_1
|
|
|
|
.SUBCKT pre2x4 A[0] A[1] out[0] out[1] out[2] out[3] vdd gnd
|
|
XXpre2x4_inv[0] A[0] B[0] vdd gnd a_inv_1
|
|
XXpre2x4_inv[1] A[1] B[1] vdd gnd a_inv_1
|
|
XXpre2x4_nand_inv[0] Z[0] out[0] vdd gnd a_inv_1
|
|
XXpre2x4_nand_inv[1] Z[1] out[1] vdd gnd a_inv_1
|
|
XXpre2x4_nand_inv[2] Z[2] out[2] vdd gnd a_inv_1
|
|
XXpre2x4_nand_inv[3] Z[3] out[3] vdd gnd a_inv_1
|
|
XXpre2x4_nand[0] A[0] A[1] Z[3] vdd gnd a_nand_2
|
|
XXpre2x4_nand[1] B[0] A[1] Z[2] vdd gnd a_nand_2
|
|
XXpre2x4_nand[2] A[0] B[1] Z[1] vdd gnd a_nand_2
|
|
XXpre2x4_nand[3] B[0] B[1] Z[0] vdd gnd a_nand_2
|
|
.ENDS pre2x4
|
|
|
|
.SUBCKT nand_3_nmos165 D G S B
|
|
Mnmos D G S B n m=1 w=3.6u l=0.6u
|
|
.ENDS nand_3_nmos165
|
|
|
|
.SUBCKT nand_3_nmos266 D G S B
|
|
Mnmos D G S B n m=1 w=3.6u l=0.6u
|
|
.ENDS nand_3_nmos266
|
|
|
|
.SUBCKT nand_3_nmos367 D G S B
|
|
Mnmos D G S B n m=1 w=3.6u l=0.6u
|
|
.ENDS nand_3_nmos367
|
|
|
|
.SUBCKT nand_3_pmos168 D G S B
|
|
Mpmos D G S B p m=1 w=2.4u l=0.6u
|
|
.ENDS nand_3_pmos168
|
|
|
|
.SUBCKT nand_3_pmos269 D G S B
|
|
Mpmos D G S B p m=1 w=2.4u l=0.6u
|
|
.ENDS nand_3_pmos269
|
|
|
|
.SUBCKT nand_3_pmos370 D G S B
|
|
Mpmos D G S B p m=1 w=2.4u l=0.6u
|
|
.ENDS nand_3_pmos370
|
|
|
|
.SUBCKT a_nand_3 A B C Z vdd gnd
|
|
Xnmos1 net2 A gnd gnd nand_3_nmos165
|
|
Xnmos2 net1 B net2 gnd nand_3_nmos266
|
|
Xnmos3 Z C net1 gnd nand_3_nmos367
|
|
Xpmos1 Z A vdd vdd nand_3_pmos168
|
|
Xpmos2 vdd B Z vdd nand_3_pmos269
|
|
Xpmos3 Z C vdd vdd nand_3_pmos370
|
|
.ENDS a_nand_3
|
|
|
|
.SUBCKT pre3x8 A[0] A[1] A[2] out[0] out[1] out[2] out[3] out[4] out[5] out[6] out[7] vdd gnd
|
|
XXpre2x4_inv[0] A[0] B[0] vdd gnd a_inv_1
|
|
XXpre2x4_inv[1] A[1] B[1] vdd gnd a_inv_1
|
|
XXpre2x4_inv[2] A[2] B[2] vdd gnd a_inv_1
|
|
XXpre2x4_nand_inv[0] Z[0] out[0] vdd gnd a_inv_1
|
|
XXpre2x4_nand_inv[1] Z[1] out[1] vdd gnd a_inv_1
|
|
XXpre2x4_nand_inv[2] Z[2] out[2] vdd gnd a_inv_1
|
|
XXpre2x4_nand_inv[3] Z[3] out[3] vdd gnd a_inv_1
|
|
XXpre2x4_nand_inv[4] Z[4] out[4] vdd gnd a_inv_1
|
|
XXpre2x4_nand_inv[5] Z[5] out[5] vdd gnd a_inv_1
|
|
XXpre2x4_nand_inv[6] Z[6] out[6] vdd gnd a_inv_1
|
|
XXpre2x4_nand_inv[7] Z[7] out[7] vdd gnd a_inv_1
|
|
XXpre3x8_nand[0] A[0] A[1] A[2] Z[7] vdd gnd a_nand_3
|
|
XXpre3x8_nand[1] A[0] A[1] B[2] Z[6] vdd gnd a_nand_3
|
|
XXpre3x8_nand[2] A[0] B[1] A[2] Z[5] vdd gnd a_nand_3
|
|
XXpre3x8_nand[3] A[0] B[1] B[2] Z[4] vdd gnd a_nand_3
|
|
XXpre3x8_nand[4] B[0] A[1] A[2] Z[3] vdd gnd a_nand_3
|
|
XXpre3x8_nand[5] B[0] A[1] B[2] Z[2] vdd gnd a_nand_3
|
|
XXpre3x8_nand[6] B[0] B[1] A[2] Z[1] vdd gnd a_nand_3
|
|
XXpre3x8_nand[7] B[0] B[1] B[2] Z[0] vdd gnd a_nand_3
|
|
.ENDS pre3x8
|
|
|
|
.SUBCKT hierarchical_decoder A[0] A[1] A[2] A[3] decode_out[0] decode_out[1] decode_out[2] decode_out[3] decode_out[4] decode_out[5] decode_out[6] decode_out[7] decode_out[8] decode_out[9] decode_out[10] decode_out[11] decode_out[12] decode_out[13] decode_out[14] decode_out[15] vdd gnd
|
|
Xpre[0] A[0] A[1] out[0] out[1] out[2] out[3] vdd gnd pre2x4
|
|
Xpre[1] A[2] A[3] out[4] out[5] out[6] out[7] vdd gnd pre2x4
|
|
XNAND2_[0] out[0] out[4] Z[0] vdd gnd NAND2
|
|
XNAND2_[1] out[0] out[5] Z[1] vdd gnd NAND2
|
|
XNAND2_[2] out[0] out[6] Z[2] vdd gnd NAND2
|
|
XNAND2_[3] out[0] out[7] Z[3] vdd gnd NAND2
|
|
XNAND2_[4] out[1] out[4] Z[4] vdd gnd NAND2
|
|
XNAND2_[5] out[1] out[5] Z[5] vdd gnd NAND2
|
|
XNAND2_[6] out[1] out[6] Z[6] vdd gnd NAND2
|
|
XNAND2_[7] out[1] out[7] Z[7] vdd gnd NAND2
|
|
XNAND2_[8] out[2] out[4] Z[8] vdd gnd NAND2
|
|
XNAND2_[9] out[2] out[5] Z[9] vdd gnd NAND2
|
|
XNAND2_[10] out[2] out[6] Z[10] vdd gnd NAND2
|
|
XNAND2_[11] out[2] out[7] Z[11] vdd gnd NAND2
|
|
XNAND2_[12] out[3] out[4] Z[12] vdd gnd NAND2
|
|
XNAND2_[13] out[3] out[5] Z[13] vdd gnd NAND2
|
|
XNAND2_[14] out[3] out[6] Z[14] vdd gnd NAND2
|
|
XNAND2_[15] out[3] out[7] Z[15] vdd gnd NAND2
|
|
XINVERTER_[0] Z[0] decode_out[0] vdd gnd INVERTER
|
|
XINVERTER_[1] Z[1] decode_out[1] vdd gnd INVERTER
|
|
XINVERTER_[2] Z[2] decode_out[2] vdd gnd INVERTER
|
|
XINVERTER_[3] Z[3] decode_out[3] vdd gnd INVERTER
|
|
XINVERTER_[4] Z[4] decode_out[4] vdd gnd INVERTER
|
|
XINVERTER_[5] Z[5] decode_out[5] vdd gnd INVERTER
|
|
XINVERTER_[6] Z[6] decode_out[6] vdd gnd INVERTER
|
|
XINVERTER_[7] Z[7] decode_out[7] vdd gnd INVERTER
|
|
XINVERTER_[8] Z[8] decode_out[8] vdd gnd INVERTER
|
|
XINVERTER_[9] Z[9] decode_out[9] vdd gnd INVERTER
|
|
XINVERTER_[10] Z[10] decode_out[10] vdd gnd INVERTER
|
|
XINVERTER_[11] Z[11] decode_out[11] vdd gnd INVERTER
|
|
XINVERTER_[12] Z[12] decode_out[12] vdd gnd INVERTER
|
|
XINVERTER_[13] Z[13] decode_out[13] vdd gnd INVERTER
|
|
XINVERTER_[14] Z[14] decode_out[14] vdd gnd INVERTER
|
|
XINVERTER_[15] Z[15] decode_out[15] vdd gnd INVERTER
|
|
.ENDS hierarchical_decoder
|
|
|
|
.SUBCKT msf_address addr[0] addr[1] addr[2] addr[3] A[0] A_bar[0] A[1] A_bar[1] A[2] A_bar[2] A[3] A_bar[3] addr_clk vdd gnd
|
|
XXdff0 addr[0] A[0] A_bar[0] addr_clk vdd gnd ms_flop
|
|
XXdff1 addr[1] A[1] A_bar[1] addr_clk vdd gnd ms_flop
|
|
XXdff2 addr[2] A[2] A_bar[2] addr_clk vdd gnd ms_flop
|
|
XXdff3 addr[3] A[3] A_bar[3] addr_clk vdd gnd ms_flop
|
|
.ENDS msf_address
|
|
|
|
.SUBCKT msf_data_in data[0] data[1] data_in[0] data_in_bar[0] data_in[1] data_in_bar[1] clk vdd gnd
|
|
XXdff0 data[0] data_in[0] data_in_bar[0] clk vdd gnd ms_flop
|
|
XXdff1 data[1] data_in[1] data_in_bar[1] clk vdd gnd ms_flop
|
|
.ENDS msf_data_in
|
|
|
|
.SUBCKT msf_data_out data_out[0] data_out[1] tri_in[0] tri_in_bar[0] tri_in[1] tri_in_bar[1] sclk vdd gnd
|
|
XXdff0 data_out[0] tri_in[0] tri_in_bar[0] sclk vdd gnd ms_flop
|
|
XXdff1 data_out[1] tri_in[1] tri_in_bar[1] sclk vdd gnd ms_flop
|
|
.ENDS msf_data_out
|
|
*********************** tri_gate ******************************
|
|
|
|
.SUBCKT tri_gate in out en en_bar vdd gnd
|
|
|
|
M_1 net_2 in_inv gnd gnd n W='1.2*1u' L=0.6u
|
|
M_2 net_3 in_inv vdd vdd p W='2.4*1u' L=0.6u
|
|
M_3 out en_bar net_3 vdd p W='2.4*1u' L=0.6u
|
|
M_4 out en net_2 gnd n W='1.2*1u' L=0.6u
|
|
M_5 in_inv in vdd vdd p W='2.4*1u' L=0.6u
|
|
M_6 in_inv in gnd gnd n W='1.2*1u' L=0.6u
|
|
|
|
|
|
.ENDS
|
|
|
|
.SUBCKT tri_gate_array tri_in[0] tri_in[1] data[0] data[1] en en_bar vdd gnd
|
|
XXtri_gate0 tri_in[0] data[0] en en_bar vdd gnd tri_gate
|
|
XXtri_gate1 tri_in[1] data[1] en en_bar vdd gnd tri_gate
|
|
.ENDS tri_gate_array
|
|
|
|
.SUBCKT wordline_driver decode_out[0] decode_out[1] decode_out[2] decode_out[3] decode_out[4] decode_out[5] decode_out[6] decode_out[7] decode_out[8] decode_out[9] decode_out[10] decode_out[11] decode_out[12] decode_out[13] decode_out[14] decode_out[15] wl[0] wl[1] wl[2] wl[3] wl[4] wl[5] wl[6] wl[7] wl[8] wl[9] wl[10] wl[11] wl[12] wl[13] wl[14] wl[15] clk vdd gnd
|
|
XWordline_driver_inv_clk0 clk clk_bar[0] vdd gnd INVERTER
|
|
XWordline_driver_nand0 decode_out[0] clk_bar[0] net[0] vdd gnd NAND2
|
|
XWordline_driver_inv0 net[0] wl[0] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk1 clk clk_bar[1] vdd gnd INVERTER
|
|
XWordline_driver_nand1 decode_out[1] clk_bar[1] net[1] vdd gnd NAND2
|
|
XWordline_driver_inv1 net[1] wl[1] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk2 clk clk_bar[2] vdd gnd INVERTER
|
|
XWordline_driver_nand2 decode_out[2] clk_bar[2] net[2] vdd gnd NAND2
|
|
XWordline_driver_inv2 net[2] wl[2] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk3 clk clk_bar[3] vdd gnd INVERTER
|
|
XWordline_driver_nand3 decode_out[3] clk_bar[3] net[3] vdd gnd NAND2
|
|
XWordline_driver_inv3 net[3] wl[3] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk4 clk clk_bar[4] vdd gnd INVERTER
|
|
XWordline_driver_nand4 decode_out[4] clk_bar[4] net[4] vdd gnd NAND2
|
|
XWordline_driver_inv4 net[4] wl[4] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk5 clk clk_bar[5] vdd gnd INVERTER
|
|
XWordline_driver_nand5 decode_out[5] clk_bar[5] net[5] vdd gnd NAND2
|
|
XWordline_driver_inv5 net[5] wl[5] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk6 clk clk_bar[6] vdd gnd INVERTER
|
|
XWordline_driver_nand6 decode_out[6] clk_bar[6] net[6] vdd gnd NAND2
|
|
XWordline_driver_inv6 net[6] wl[6] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk7 clk clk_bar[7] vdd gnd INVERTER
|
|
XWordline_driver_nand7 decode_out[7] clk_bar[7] net[7] vdd gnd NAND2
|
|
XWordline_driver_inv7 net[7] wl[7] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk8 clk clk_bar[8] vdd gnd INVERTER
|
|
XWordline_driver_nand8 decode_out[8] clk_bar[8] net[8] vdd gnd NAND2
|
|
XWordline_driver_inv8 net[8] wl[8] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk9 clk clk_bar[9] vdd gnd INVERTER
|
|
XWordline_driver_nand9 decode_out[9] clk_bar[9] net[9] vdd gnd NAND2
|
|
XWordline_driver_inv9 net[9] wl[9] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk10 clk clk_bar[10] vdd gnd INVERTER
|
|
XWordline_driver_nand10 decode_out[10] clk_bar[10] net[10] vdd gnd NAND2
|
|
XWordline_driver_inv10 net[10] wl[10] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk11 clk clk_bar[11] vdd gnd INVERTER
|
|
XWordline_driver_nand11 decode_out[11] clk_bar[11] net[11] vdd gnd NAND2
|
|
XWordline_driver_inv11 net[11] wl[11] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk12 clk clk_bar[12] vdd gnd INVERTER
|
|
XWordline_driver_nand12 decode_out[12] clk_bar[12] net[12] vdd gnd NAND2
|
|
XWordline_driver_inv12 net[12] wl[12] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk13 clk clk_bar[13] vdd gnd INVERTER
|
|
XWordline_driver_nand13 decode_out[13] clk_bar[13] net[13] vdd gnd NAND2
|
|
XWordline_driver_inv13 net[13] wl[13] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk14 clk clk_bar[14] vdd gnd INVERTER
|
|
XWordline_driver_nand14 decode_out[14] clk_bar[14] net[14] vdd gnd NAND2
|
|
XWordline_driver_inv14 net[14] wl[14] vdd gnd INVERTER
|
|
XWordline_driver_inv_clk15 clk clk_bar[15] vdd gnd INVERTER
|
|
XWordline_driver_nand15 decode_out[15] clk_bar[15] net[15] vdd gnd NAND2
|
|
XWordline_driver_inv15 net[15] wl[15] vdd gnd INVERTER
|
|
.ENDS wordline_driver
|
|
|
|
.SUBCKT inv_nmos181 D G S B
|
|
Mnmos D G S B n m=4 w=1.2u l=0.6u
|
|
.ENDS inv_nmos181
|
|
|
|
.SUBCKT inv_pmos182 D G S B
|
|
Mpmos D G S B p m=4 w=2.4u l=0.6u
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.ENDS inv_pmos182
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.SUBCKT pinv4x A Z vdd gnd
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Xpinv_nmos Z A gnd gnd inv_nmos181
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Xpinv_pmos Z A vdd vdd inv_pmos182
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.ENDS pinv4x
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.SUBCKT nor_2_nmos195 D G S B
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Mnmos D G S B n m=1 w=1.2u l=0.6u
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.ENDS nor_2_nmos195
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.SUBCKT nor_2_nmos296 D G S B
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Mnmos D G S B n m=1 w=1.2u l=0.6u
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.ENDS nor_2_nmos296
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.SUBCKT nor_2_pmos197 D G S B
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Mpmos D G S B p m=4 w=1.2u l=0.6u
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.ENDS nor_2_pmos197
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.SUBCKT nor_2_pmos298 D G S B
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Mpmos D G S B p m=4 w=1.2u l=0.6u
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.ENDS nor_2_pmos298
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.SUBCKT NOR2 A B Z vdd gnd
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Xnmos1 Z A gnd gnd nor_2_nmos195
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Xnmos2 Z B gnd gnd nor_2_nmos296
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Xpmos1 vdd A net1 vdd nor_2_pmos197
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Xpmos2 net1 B Z vdd nor_2_pmos298
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.ENDS NOR2
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.SUBCKT test_bank1 data[0] data[1] addr[0] addr[1] addr[2] addr[3] s_en w_en tri_en_bar tri_en clk_bar clk vdd gnd
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Xbitcell_array bl[0] br[0] bl[1] br[1] wl[0] wl[1] wl[2] wl[3] wl[4] wl[5] wl[6] wl[7] wl[8] wl[9] wl[10] wl[11] wl[12] wl[13] wl[14] wl[15] vdd gnd bitcell_array
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Xprecharge_array bl[0] br[0] bl[1] br[1] clk_bar vdd precharge_array
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Xsense_amp_array bl[0] br[0] bl[1] br[1] data_out[0] data_out[1] s_en vdd gnd sense_amp_array
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Xwrite_driver_array data_in[0] data_in[1] bl[0] br[0] bl[1] br[1] w_en vdd gnd write_driver_array
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Xdata_in_flop_array data[0] data[1] data_in[0] data_in_bar[0] data_in[1] data_in_bar[1] clk_bar vdd gnd msf_data_in
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Xtrigate_data_array data_out[0] data_out[1] data[0] data[1] tri_en tri_en_bar vdd gnd tri_gate_array
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Xaddress_decoder A[0] A[1] A[2] A[3] decode_out[0] decode_out[1] decode_out[2] decode_out[3] decode_out[4] decode_out[5] decode_out[6] decode_out[7] decode_out[8] decode_out[9] decode_out[10] decode_out[11] decode_out[12] decode_out[13] decode_out[14] decode_out[15] vdd gnd hierarchical_decoder
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Xwordline_driver decode_out[0] decode_out[1] decode_out[2] decode_out[3] decode_out[4] decode_out[5] decode_out[6] decode_out[7] decode_out[8] decode_out[9] decode_out[10] decode_out[11] decode_out[12] decode_out[13] decode_out[14] decode_out[15] wl[0] wl[1] wl[2] wl[3] wl[4] wl[5] wl[6] wl[7] wl[8] wl[9] wl[10] wl[11] wl[12] wl[13] wl[14] wl[15] clk vdd gnd wordline_driver
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Xaddress_flop_array addr[0] addr[1] addr[2] addr[3] A[0] A_bar[0] A[1] A_bar[1] A[2] A_bar[2] A[3] A_bar[3] clk vdd gnd msf_address
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.ENDS test_bank1
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.SUBCKT testsram data[0] data[1] addr[0] addr[1] addr[2] addr[3] CSb WEb OEb clk vdd gnd
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Xbank0 data[0] data[1] addr[0] addr[1] addr[2] addr[3] s_en w_en tri_en_bar tri_en clk_bar clk vdd gnd test_bank1
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Xcontrol CSb WEb OEb s_en w_en tri_en tri_en_bar clk_bar clk vdd gnd control_logic
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.ENDS testsram
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