VERSION 5.2 ; NAMESCASESENSITIVE ON ; BUSBITCHARS "()" ; DIVIDERCHAR "." ; MACRO rf2_dec_bufad0 CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 45.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN nq DIRECTION INOUT ; PORT LAYER ALU2 ; RECT 14.00 24.00 16.00 26.00 ; END END nq PIN q DIRECTION OUTPUT ; PORT LAYER ALU2 ; RECT 24.00 29.00 26.00 31.00 ; END END q PIN i DIRECTION INPUT ; PORT LAYER ALU1 ; RECT 4.00 39.00 6.00 41.00 ; RECT 4.00 34.00 6.00 36.00 ; RECT 4.00 29.00 6.00 31.00 ; RECT 4.00 24.00 6.00 26.00 ; RECT 4.00 19.00 6.00 21.00 ; RECT 4.00 14.00 6.00 16.00 ; RECT 4.00 9.00 6.00 11.00 ; END END i PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 42.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 42.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 43.50 41.00 ; END END rf2_dec_bufad0 MACRO rf2_dec_bufad1_l CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 50.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN nq DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 24.00 19.00 26.00 21.00 ; END END nq PIN q DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 29.00 19.00 31.00 21.00 ; END END q PIN i DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 19.00 19.00 21.00 21.00 ; END END i PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 47.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 47.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 48.50 41.00 ; LAYER ALU2 ; RECT 19.00 19.00 31.00 21.00 ; END END rf2_dec_bufad1_l MACRO rf2_dec_bufad1_r CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 100.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN nq DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 24.00 19.00 26.00 21.00 ; END END nq PIN q DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 29.00 19.00 31.00 21.00 ; END END q PIN i DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 19.00 19.00 21.00 21.00 ; END END i PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 97.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 97.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 98.50 41.00 ; LAYER ALU2 ; RECT 19.00 19.00 31.00 21.00 ; END END rf2_dec_bufad1_r MACRO rf2_dec_bufad2_l CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 50.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN nq0 DIRECTION INOUT ; PORT LAYER ALU3 ; RECT 29.00 19.00 31.00 21.00 ; END END nq0 PIN nq1 DIRECTION INOUT ; PORT LAYER ALU3 ; RECT 34.00 19.00 36.00 21.00 ; END END nq1 PIN q0 DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 19.00 19.00 21.00 21.00 ; END END q0 PIN q1 DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 44.00 19.00 46.00 21.00 ; END END q1 PIN i0 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 24.00 19.00 26.00 21.00 ; END END i0 PIN i1 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 39.00 19.00 41.00 21.00 ; END END i1 PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 47.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 47.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 48.50 41.00 ; LAYER ALU2 ; RECT 19.00 19.00 46.00 21.00 ; END END rf2_dec_bufad2_l MACRO rf2_dec_bufad2_r CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 100.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN nq0 DIRECTION INOUT ; PORT LAYER ALU3 ; RECT 29.00 19.00 31.00 21.00 ; END END nq0 PIN nq1 DIRECTION INOUT ; PORT LAYER ALU3 ; RECT 34.00 19.00 36.00 21.00 ; END END nq1 PIN q0 DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 19.00 19.00 21.00 21.00 ; END END q0 PIN q1 DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 44.00 19.00 46.00 21.00 ; END END q1 PIN i0 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 24.00 19.00 26.00 21.00 ; END END i0 PIN i1 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 39.00 19.00 41.00 21.00 ; END END i1 PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 97.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 97.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 98.50 41.00 ; LAYER ALU2 ; RECT 19.00 19.00 46.00 21.00 ; END END rf2_dec_bufad2_r MACRO rf2_dec_nand2 CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 70.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN nq DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 44.00 19.00 46.00 21.00 ; END END nq PIN i0 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 14.00 19.00 16.00 21.00 ; END END i0 PIN i1 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 24.00 19.00 26.00 21.00 ; END END i1 PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 67.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 67.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 68.50 41.00 ; LAYER ALU2 ; RECT 19.00 19.00 26.00 21.00 ; RECT 14.00 19.00 46.00 21.00 ; END END rf2_dec_nand2 MACRO rf2_dec_nand3 CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 70.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN nq DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 44.00 19.00 46.00 21.00 ; END END nq PIN i0 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 14.00 19.00 16.00 21.00 ; END END i0 PIN i2 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 29.00 19.00 31.00 21.00 ; END END i2 PIN i1 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 24.00 19.00 26.00 21.00 ; END END i1 PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 67.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 67.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 68.50 41.00 ; LAYER ALU2 ; RECT 19.00 19.00 26.00 21.00 ; RECT 14.00 19.00 46.00 21.00 ; END END rf2_dec_nand3 MACRO rf2_dec_nand4 CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 70.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN nq DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 44.00 19.00 46.00 21.00 ; END END nq PIN i1 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 24.00 19.00 26.00 21.00 ; END END i1 PIN i2 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 29.00 19.00 31.00 21.00 ; END END i2 PIN i0 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 14.00 19.00 16.00 21.00 ; END END i0 PIN i3 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 34.00 19.00 36.00 21.00 ; END END i3 PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 67.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 67.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 68.50 41.00 ; LAYER ALU2 ; RECT 14.00 19.00 46.00 21.00 ; RECT 19.00 19.00 26.00 21.00 ; END END rf2_dec_nand4 MACRO rf2_dec_nao3 CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 35.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN nq DIRECTION OUTPUT ; PORT LAYER ALU2 ; RECT 9.00 14.00 11.00 16.00 ; END END nq PIN i1 DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 4.00 19.00 6.00 21.00 ; END END i1 PIN i0 DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 9.00 39.00 11.00 41.00 ; END END i0 PIN i2 DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 19.00 34.00 21.00 36.00 ; END END i2 PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 32.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 32.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 33.50 41.00 ; LAYER ALU2 ; RECT 4.00 19.00 11.00 21.00 ; END END rf2_dec_nao3 MACRO rf2_dec_nbuf CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 105.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN nq DIRECTION OUTPUT ; PORT LAYER ALU2 ; RECT 19.00 9.00 21.00 11.00 ; RECT 14.00 9.00 16.00 11.00 ; RECT 9.00 9.00 11.00 11.00 ; END END nq PIN i DIRECTION INPUT ; PORT LAYER ALU1 ; RECT 49.00 39.00 51.00 41.00 ; RECT 49.00 34.00 51.00 36.00 ; RECT 49.00 29.00 51.00 31.00 ; RECT 49.00 24.00 51.00 26.00 ; RECT 49.00 19.00 51.00 21.00 ; RECT 49.00 14.00 51.00 16.00 ; RECT 49.00 9.00 51.00 11.00 ; END END i PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 102.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 102.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 103.50 41.00 ; END END rf2_dec_nbuf MACRO rf2_dec_nor3 CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 35.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN nq DIRECTION OUTPUT ; PORT LAYER ALU2 ; RECT 9.00 14.00 11.00 16.00 ; END END nq PIN i0 DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 9.00 39.00 11.00 41.00 ; END END i0 PIN i2 DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 19.00 9.00 21.00 11.00 ; END END i2 PIN i1 DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 4.00 19.00 6.00 21.00 ; END END i1 PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 32.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 32.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 33.50 41.00 ; LAYER ALU2 ; RECT 4.00 19.00 11.00 21.00 ; END END rf2_dec_nor3 MACRO rf2_inmux_buf CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 45.00 BY 100.00 ; SYMMETRY Y ; SITE core ; PIN sel0 DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 34.00 39.00 36.00 41.00 ; END END sel0 PIN sel1 DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 24.00 14.00 26.00 16.00 ; END END sel1 PIN sel DIRECTION INPUT ; PORT LAYER ALU1 ; RECT 14.00 89.00 16.00 91.00 ; RECT 14.00 84.00 16.00 86.00 ; RECT 14.00 79.00 16.00 81.00 ; RECT 14.00 74.00 16.00 76.00 ; RECT 14.00 69.00 16.00 71.00 ; END END sel PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 42.00 47.00 ; LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 53.00 42.00 53.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 42.00 3.00 ; LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 97.00 42.00 97.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 43.50 41.00 ; RECT 1.50 59.00 43.50 91.00 ; LAYER ALU2 ; RECT 26.00 39.00 40.00 41.00 ; RECT 8.00 14.00 26.00 16.00 ; RECT 4.00 14.00 26.00 16.00 ; RECT 24.00 39.00 41.00 41.00 ; END END rf2_inmux_buf MACRO rf2_inmux_mem CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 45.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN dinx DIRECTION OUTPUT ; PORT LAYER ALU2 ; RECT 9.00 9.00 11.00 11.00 ; END END dinx PIN datain1 DIRECTION INPUT ; PORT LAYER ALU1 ; RECT 39.00 39.00 41.00 41.00 ; RECT 39.00 34.00 41.00 36.00 ; RECT 39.00 29.00 41.00 31.00 ; RECT 39.00 24.00 41.00 26.00 ; RECT 39.00 19.00 41.00 21.00 ; RECT 39.00 14.00 41.00 16.00 ; END END datain1 PIN datain0 DIRECTION INPUT ; PORT LAYER ALU1 ; RECT 19.00 39.00 21.00 41.00 ; RECT 19.00 34.00 21.00 36.00 ; RECT 19.00 29.00 21.00 31.00 ; RECT 19.00 24.00 21.00 26.00 ; RECT 19.00 19.00 21.00 21.00 ; RECT 19.00 14.00 21.00 16.00 ; END END datain0 PIN sel0 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 34.00 29.00 36.00 31.00 ; END END sel0 PIN sel1 DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 24.00 29.00 26.00 31.00 ; END END sel1 PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 42.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 42.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 43.50 41.00 ; LAYER ALU2 ; RECT 24.00 29.00 36.00 31.00 ; END END rf2_inmux_mem MACRO rf2_mid_buf CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 35.00 BY 100.00 ; SYMMETRY Y ; SITE core ; PIN reada DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 19.00 59.00 21.00 61.00 ; RECT 19.00 54.00 21.00 56.00 ; RECT 19.00 49.00 21.00 51.00 ; RECT 19.00 44.00 21.00 46.00 ; RECT 19.00 39.00 21.00 41.00 ; RECT 19.00 34.00 21.00 36.00 ; RECT 19.00 29.00 21.00 31.00 ; RECT 19.00 24.00 21.00 26.00 ; RECT 19.00 19.00 21.00 21.00 ; RECT 19.00 14.00 21.00 16.00 ; END END reada PIN write DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 4.00 59.00 6.00 61.00 ; RECT 4.00 54.00 6.00 56.00 ; RECT 4.00 49.00 6.00 51.00 ; RECT 4.00 44.00 6.00 46.00 ; RECT 4.00 39.00 6.00 41.00 ; RECT 4.00 34.00 6.00 36.00 ; RECT 4.00 29.00 6.00 31.00 ; RECT 4.00 24.00 6.00 26.00 ; RECT 4.00 19.00 6.00 21.00 ; RECT 4.00 14.00 6.00 16.00 ; END END write PIN readb DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 29.00 59.00 31.00 61.00 ; RECT 29.00 54.00 31.00 56.00 ; RECT 29.00 49.00 31.00 51.00 ; RECT 29.00 44.00 31.00 46.00 ; RECT 29.00 39.00 31.00 41.00 ; RECT 29.00 34.00 31.00 36.00 ; RECT 29.00 29.00 31.00 31.00 ; RECT 29.00 24.00 31.00 26.00 ; RECT 29.00 19.00 31.00 21.00 ; RECT 29.00 14.00 31.00 16.00 ; END END readb PIN selrb DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 24.00 84.00 26.00 86.00 ; END END selrb PIN selra DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 14.00 84.00 16.00 86.00 ; END END selra PIN nck DIRECTION INPUT ; PORT LAYER ALU2 ; RECT -1.00 89.00 1.00 91.00 ; END END nck PIN selw DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 9.00 84.00 11.00 86.00 ; END END selw PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 32.00 47.00 ; LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 53.00 32.00 53.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 32.00 3.00 ; LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 97.00 32.00 97.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 33.50 41.00 ; RECT 1.50 59.00 33.50 91.00 ; LAYER ALU2 ; RECT 14.00 64.00 31.00 66.00 ; RECT 4.00 59.00 31.00 61.00 ; RECT 4.00 39.00 31.00 41.00 ; RECT 14.00 19.00 26.00 21.00 ; RECT 4.00 14.00 31.00 16.00 ; RECT 17.00 39.00 21.00 41.00 ; RECT 17.00 14.00 21.00 16.00 ; RECT 14.00 64.00 21.00 66.00 ; RECT 24.00 64.00 31.00 66.00 ; LAYER ALU3 ; RECT 14.00 19.00 16.00 66.00 ; RECT 24.00 19.00 26.00 66.00 ; RECT 24.00 19.00 26.00 66.00 ; RECT 14.00 19.00 16.00 66.00 ; END END rf2_mid_buf MACRO rf2_mid_mem_r0 CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 35.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN busb DIRECTION OUTPUT TRISTATE ; PORT LAYER ALU2 ; RECT 34.00 24.00 36.00 26.00 ; END END busb PIN busa DIRECTION OUTPUT TRISTATE ; PORT LAYER ALU2 ; RECT 34.00 14.00 36.00 16.00 ; END END busa PIN write DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 4.00 29.00 6.00 31.00 ; END END write PIN dinx DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 19.00 9.00 21.00 11.00 ; END END dinx PIN reada DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 19.00 29.00 21.00 31.00 ; END END reada PIN readb DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 29.00 29.00 31.00 31.00 ; END END readb PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 32.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 32.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 33.50 41.00 ; LAYER ALU2 ; RECT 19.00 29.00 26.00 31.00 ; END END rf2_mid_mem_r0 MACRO rf2_mid_mem CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 35.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN busb DIRECTION OUTPUT TRISTATE ; PORT LAYER ALU2 ; RECT 34.00 24.00 36.00 26.00 ; END END busb PIN busa DIRECTION OUTPUT TRISTATE ; PORT LAYER ALU2 ; RECT 34.00 14.00 36.00 16.00 ; END END busa PIN write DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 4.00 29.00 6.00 31.00 ; END END write PIN dinx DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 19.00 9.00 21.00 11.00 ; END END dinx PIN reada DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 19.00 29.00 21.00 31.00 ; END END reada PIN readb DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 29.00 29.00 31.00 31.00 ; END END readb PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 32.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 32.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 33.50 41.00 ; LAYER ALU2 ; RECT 19.00 29.00 26.00 31.00 ; RECT 4.00 29.00 16.00 31.00 ; END END rf2_mid_mem MACRO rf2_out_buf CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 105.00 BY 100.00 ; SYMMETRY Y ; SITE core ; PIN xcks DIRECTION OUTPUT ; PORT LAYER ALU3 ; RECT 14.00 59.00 16.00 61.00 ; RECT 14.00 54.00 16.00 56.00 ; RECT 14.00 49.00 16.00 51.00 ; RECT 14.00 44.00 16.00 46.00 ; RECT 14.00 39.00 16.00 41.00 ; RECT 14.00 34.00 16.00 36.00 ; RECT 14.00 29.00 16.00 31.00 ; RECT 14.00 24.00 16.00 26.00 ; RECT 14.00 19.00 16.00 21.00 ; RECT 14.00 14.00 16.00 16.00 ; END END xcks PIN nck DIRECTION OUTPUT ; PORT LAYER ALU2 ; RECT 79.00 89.00 81.00 91.00 ; RECT 74.00 89.00 76.00 91.00 ; RECT 69.00 89.00 71.00 91.00 ; RECT 64.00 89.00 66.00 91.00 ; RECT 59.00 89.00 61.00 91.00 ; RECT 54.00 89.00 56.00 91.00 ; RECT 49.00 89.00 51.00 91.00 ; RECT 44.00 89.00 46.00 91.00 ; RECT 39.00 89.00 41.00 91.00 ; RECT 34.00 89.00 36.00 91.00 ; RECT 29.00 89.00 31.00 91.00 ; RECT 24.00 89.00 26.00 91.00 ; RECT 19.00 89.00 21.00 91.00 ; RECT 14.00 89.00 16.00 91.00 ; LAYER ALU2 ; RECT 14.00 89.00 16.00 91.00 ; END END nck PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 102.00 47.00 ; LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 53.00 102.00 53.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 102.00 3.00 ; LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 97.00 102.00 97.00 ; END END vss PIN ck DIRECTION INPUT ; USE CLOCK ; PORT LAYER ALU1 ; RECT 99.00 89.00 101.00 91.00 ; RECT 99.00 84.00 101.00 86.00 ; RECT 99.00 79.00 101.00 81.00 ; RECT 99.00 74.00 101.00 76.00 ; RECT 99.00 69.00 101.00 71.00 ; RECT 99.00 64.00 101.00 66.00 ; RECT 99.00 59.00 101.00 61.00 ; END END ck OBS LAYER ALU1 ; RECT 1.50 9.00 103.50 41.00 ; RECT 1.50 59.00 103.50 91.00 ; LAYER ALU2 ; RECT 9.00 59.00 21.00 61.00 ; RECT 9.00 39.00 21.00 41.00 ; RECT 9.00 14.00 21.00 16.00 ; END END rf2_out_buf MACRO rf2_out_mem CLASS CORE ; ORIGIN 0.00 0.00 ; SIZE 105.00 BY 50.00 ; SYMMETRY X Y ; SITE core ; PIN dataoutb DIRECTION OUTPUT ; PORT LAYER ALU1 ; RECT 44.00 39.00 46.00 41.00 ; RECT 44.00 34.00 46.00 36.00 ; RECT 44.00 29.00 46.00 31.00 ; RECT 44.00 24.00 46.00 26.00 ; RECT 44.00 19.00 46.00 21.00 ; RECT 44.00 14.00 46.00 16.00 ; RECT 44.00 9.00 46.00 11.00 ; END END dataoutb PIN dataouta DIRECTION OUTPUT ; PORT LAYER ALU1 ; RECT 59.00 39.00 61.00 41.00 ; RECT 59.00 34.00 61.00 36.00 ; RECT 59.00 29.00 61.00 31.00 ; RECT 59.00 24.00 61.00 26.00 ; RECT 59.00 19.00 61.00 21.00 ; RECT 59.00 14.00 61.00 16.00 ; RECT 59.00 9.00 61.00 11.00 ; END END dataouta PIN busb DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 4.00 24.00 6.00 26.00 ; END END busb PIN xcks DIRECTION INPUT ; PORT LAYER ALU3 ; RECT 14.00 24.00 16.00 26.00 ; END END xcks PIN busa DIRECTION INPUT ; PORT LAYER ALU2 ; RECT 99.00 14.00 101.00 16.00 ; END END busa PIN vdd DIRECTION INPUT ; USE POWER ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 47.00 102.00 47.00 ; END END vdd PIN vss DIRECTION INPUT ; USE GROUND ; SHAPE ABUTMENT ; PORT LAYER ALU1 ; WIDTH 6.00 ; PATH 3.00 3.00 102.00 3.00 ; END END vss OBS LAYER ALU1 ; RECT 1.50 9.00 103.50 41.00 ; LAYER ALU2 ; RECT 14.00 24.00 86.00 26.00 ; RECT 14.00 24.00 86.00 26.00 ; END END rf2_out_mem END LIBRARY