continued register_rw
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Michele
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b8a74e1bb7
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04d12338b7
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@ -55,9 +55,7 @@ defproc register_w (avMx1of2<1+lognw+wl> in; d1of<wl> data[1<<lognw]; power supp
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bool _in_v_temp,_in_a_temp,_clock_temp,_clock,_clock_temp_inv;
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pint nw = 1<<lognw;
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//Validation of the input
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Mx1of2<1+lognw+wl> _in_temp;
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(i:1+lognw+wl:_in_temp.d[i] = in.d.d[i];)
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vtree<1+lognw+wl> val_input(.in = _in_temp,.out = _in_v_temp, .supply = supply);
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vtree<1+lognw+wl> val_input(.in = in.d,.out = _in_v_temp, .supply = supply);
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sigbuf_1output<4> val_input_X(.in = _in_v_temp,.out = in.v,.supply = supply);
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// Generation of the fake clock pulse (inverted because the ff clocks are low_active)
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delayprog<N_dly_cfg> clk_dly(.in = _in_v_temp, .out = _clock_temp,.s = dly_cfg, .supply = supply);
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@ -175,13 +173,16 @@ defproc register_rw (avMx1of2<1+lognw+wl> in; avMx1of2<lognw+wl> out; d1of<wl> d
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)
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AND2_X1 ack_read_and(.a = in.d.d[lognw+wl].t,.b = output_buf.in.a,.y = _in_a_read,.vdd = supply.vdd, .vss = supply.vss);
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//Reset Buffers
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bool _reset_BX,_reset_mem_BX,_reset_mem_BXX[nw*wl];
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bool _reset_BX, _reset_BXX[nw],_reset_mem_BX,_reset_mem_BXX[nw*wl];
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BUF_X1 reset_buf_BX(.a=reset_B, .y=_reset_BX,.vdd=supply.vdd,.vss=supply.vss);
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BUF_X1 reset_buf_BXX(.a=reset_mem_B, .y=_reset_mem_BX,.vdd=supply.vdd,.vss=supply.vss);
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sigbuf<nw*wl> reset_bufarray(.in=_reset_mem_BX, .out=_reset_mem_BXX,.supply=supply);
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sigbuf<nw*wl> reset_mem_bufarray(.in=_reset_mem_BX, .out=_reset_mem_BXX,.supply=supply);
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sigbuf<nw> reset_bufarray(.in=_reset_BX, .out=_reset_BXX,.supply=supply);
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//Creating the encoder
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andtree<lognw> atree[nw];
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AND2_X1 and_encoder[nw];
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OR2_X1 or_encoder[nw];
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INV_X1 inv_encoder[nw];
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// Creating the different flip flop arrays
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bool _out_encoder[nw];
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DFFQ_R_X1 ff[nw*wl];
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@ -201,11 +202,14 @@ defproc register_rw (avMx1of2<1+lognw+wl> in; avMx1of2<lognw+wl> out; d1of<wl> d
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)
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// WRITE: Activating the fake clock for the right word
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atree[word_idx].out = _out_encoder[word_idx];
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and_encoder[word_idx].a = _out_encoder[word_idx];
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and_encoder[word_idx].b = _clock[word_idx];
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and_encoder[word_idx].y = _clock_word_temp[word_idx];
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and_encoder[word_idx].vdd = supply.vdd;
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and_encoder[word_idx].vss = supply.vss;
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inv_encoder[word_idx].a = _out_encoder[word_idx];
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inv_encoder[word_idx].y = or_encoder[word_idx].a;
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inv_encoder[word_idx].vdd = supply.vdd;
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inv_encoder[word_idx].vss = supply.vss;
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or_encoder[word_idx].b = _clock[word_idx];
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or_encoder[word_idx].y = _clock_word_temp[word_idx];
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or_encoder[word_idx].vdd = supply.vdd;
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or_encoder[word_idx].vss = supply.vss;
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clock_buffer[word_idx].in = _clock_word_temp[word_idx];
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clock_buffer[word_idx].supply = supply;
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// READ: Selecting the right word to read if read is high
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@ -3,6 +3,7 @@ system "echo '[0] start test'"
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system "echo '----------------------------------------------------------'"
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set-qdi-channel-neutral "t.in" 5
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set-qdi-channel-neutral "t.out" 4
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set t.data[0].d[0] 0
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set t.data[0].d[1] 0
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set t.data[1].d[0] 0
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@ -11,9 +12,15 @@ set t.dly_cfg[0] 1
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set t.dly_cfg[1] 1
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set t.out.a 0
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set t.out.v 0
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cycle
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#set t.registers._in_write.a 0
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set Reset 0
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set t.dly_cfg[0] 1
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set t.dly_cfg[1] 1
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cycle
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assert-qdi-channel-neutral "t.in" 5
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assert-qdi-channel-neutral "t.out" 4
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# There shouldnt be any status X
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status X
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#mode run
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cycle
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@ -45,21 +52,29 @@ assert t.registers.ff[0].q 1
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assert t.registers.ff[1].q 1
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assert t.registers.ff[2].q 0
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assert t.registers.ff[3].q 0
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assert t.registers.ff[4].q 0
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assert t.registers.ff[5].q 0
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assert t.registers.ff[6].q 0
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assert t.registers.ff[7].q 0
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system "echo '[3] first writing done'"
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system "echo '----------------------------------------------------------'"
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set-qdi-channel-valid "t.in" 5 16
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# 16 -> 10000 -> reading mode, address 00, word 00 (word doesn't needed here)
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# 16 -> 10000 -> reading mode, address 00, word 00 (word doesnt needed here)
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cycle
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assert t.registers._clock_temp_inv 1
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assert-qdi-channel-valid "t.out" 4 3
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set t.out.v 1
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cycle
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set t.out.a 1
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assert t.registers._clock_temp_inv 1
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cycle
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assert t.in.a 1
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set-qdi-channel-neutral "t.in" 5
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assert t.registers._clock_temp_inv 1
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cycle
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assert t.registers._clock_temp_inv 1
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assert t.registers.ff[0].q 1
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assert t.registers.ff[1].q 1
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assert t.registers.ff[2].q 0
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