mirror of https://github.com/YosysHQ/yosys.git
Merge pull request #1983 from YosysHQ/eddie/use_default_param
Cleanup use of hard-coded default parameters in light of #1945
This commit is contained in:
commit
274098cce6
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@ -73,11 +73,11 @@ void create_ice40_dsp(ice40_dsp_pm &pm)
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// SB_MAC16 Input Interface
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SigSpec A = st.sigA;
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A.extend_u0(16, st.mul->parameters.at(ID::A_SIGNED, State::S0).as_bool());
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A.extend_u0(16, st.mul->getParam(ID::A_SIGNED).as_bool());
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log_assert(GetSize(A) == 16);
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SigSpec B = st.sigB;
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B.extend_u0(16, st.mul->parameters.at(ID::B_SIGNED, State::S0).as_bool());
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B.extend_u0(16, st.mul->getParam(ID::B_SIGNED).as_bool());
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log_assert(GetSize(B) == 16);
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SigSpec CD = st.sigCD;
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@ -248,8 +248,8 @@ void create_ice40_dsp(ice40_dsp_pm &pm)
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cell->setParam(ID(BOTADDSUB_CARRYSELECT), Const(0, 2));
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cell->setParam(ID(MODE_8x8), State::S0);
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cell->setParam(ID::A_SIGNED, st.mul->parameters.at(ID::A_SIGNED, State::S0).as_bool());
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cell->setParam(ID::B_SIGNED, st.mul->parameters.at(ID::B_SIGNED, State::S0).as_bool());
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cell->setParam(ID::A_SIGNED, st.mul->getParam(ID::A_SIGNED).as_bool());
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cell->setParam(ID::B_SIGNED, st.mul->getParam(ID::B_SIGNED).as_bool());
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if (st.ffO) {
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if (st.o_lo)
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@ -65,7 +65,7 @@ code sigA sigB sigH
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endcode
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code argQ ffA ffAholdmux ffArstmux ffAholdpol ffArstpol sigA clock clock_pol
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if (mul->type != \SB_MAC16 || !param(mul, \A_REG, State::S0).as_bool()) {
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if (mul->type != \SB_MAC16 || !param(mul, \A_REG).as_bool()) {
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argQ = sigA;
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subpattern(in_dffe);
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if (dff) {
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@ -86,7 +86,7 @@ code argQ ffA ffAholdmux ffArstmux ffAholdpol ffArstpol sigA clock clock_pol
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endcode
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code argQ ffB ffBholdmux ffBrstmux ffBholdpol ffBrstpol sigB clock clock_pol
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if (mul->type != \SB_MAC16 || !param(mul, \B_REG, State::S0).as_bool()) {
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if (mul->type != \SB_MAC16 || !param(mul, \B_REG).as_bool()) {
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argQ = sigB;
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subpattern(in_dffe);
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if (dff) {
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@ -109,7 +109,7 @@ endcode
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code argD ffFJKG sigH clock clock_pol
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if (nusers(sigH) == 2 &&
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(mul->type != \SB_MAC16 ||
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(!param(mul, \TOP_8x8_MULT_REG, State::S0).as_bool() && !param(mul, \BOT_8x8_MULT_REG, State::S0).as_bool() && !param(mul, \PIPELINE_16x16_MULT_REG1, State::S0).as_bool() && !param(mul, \PIPELINE_16x16_MULT_REG1, State::S0).as_bool()))) {
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(!param(mul, \TOP_8x8_MULT_REG).as_bool() && !param(mul, \BOT_8x8_MULT_REG).as_bool() && !param(mul, \PIPELINE_16x16_MULT_REG1).as_bool() && !param(mul, \PIPELINE_16x16_MULT_REG1).as_bool()))) {
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argD = sigH;
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subpattern(out_dffe);
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if (dff) {
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@ -148,7 +148,7 @@ endcode
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code argD ffH sigH sigO clock clock_pol
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if (ffFJKG && nusers(sigH) == 2 &&
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(mul->type != \SB_MAC16 || !param(mul, \PIPELINE_16x16_MULT_REG2, State::S0).as_bool())) {
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(mul->type != \SB_MAC16 || !param(mul, \PIPELINE_16x16_MULT_REG2).as_bool())) {
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argD = sigH;
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subpattern(out_dffe);
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if (dff) {
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@ -179,7 +179,7 @@ reject_ffH: ;
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endcode
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match add
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if mul->type != \SB_MAC16 || (param(mul, \TOPOUTPUT_SELECT, State::S0).as_int() == 3 && param(mul, \BOTOUTPUT_SELECT, State::S0).as_int() == 3)
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if mul->type != \SB_MAC16 || (param(mul, \TOPOUTPUT_SELECT).as_int() == 3 && param(mul, \BOTOUTPUT_SELECT).as_int() == 3)
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select add->type.in($add)
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choice <IdString> AB {\A, \B}
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@ -205,7 +205,7 @@ code sigCD sigO cd_signed
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if ((actual_acc_width > actual_mul_width) && (natural_mul_width > actual_mul_width))
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reject;
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// If accumulator, check adder width and signedness
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if (sigCD == sigH && (actual_acc_width != actual_mul_width) && (param(mul, \A_SIGNED, State::S0).as_bool() != param(add, \A_SIGNED).as_bool()))
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if (sigCD == sigH && (actual_acc_width != actual_mul_width) && (param(mul, \A_SIGNED).as_bool() != param(add, \A_SIGNED).as_bool()))
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reject;
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sigO = port(add, \Y);
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@ -229,7 +229,7 @@ endcode
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code argD ffO ffOholdmux ffOrstmux ffOholdpol ffOrstpol sigO sigCD clock clock_pol cd_signed o_lo
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if (mul->type != \SB_MAC16 ||
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// Ensure that register is not already used
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((param(mul, \TOPOUTPUT_SELECT, 0).as_int() != 1 && param(mul, \BOTOUTPUT_SELECT, 0).as_int() != 1) &&
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((param(mul, \TOPOUTPUT_SELECT).as_int() != 1 && param(mul, \BOTOUTPUT_SELECT).as_int() != 1) &&
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// Ensure that OLOADTOP/OLOADBOT is unused or zero
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(port(mul, \OLOADTOP, State::S0).is_fully_zero() && port(mul, \OLOADBOT, State::S0).is_fully_zero()))) {
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@ -280,7 +280,7 @@ endcode
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code argQ ffCD ffCDholdmux ffCDholdpol ffCDrstpol sigCD clock clock_pol
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if (!sigCD.empty() && sigCD != sigO &&
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(mul->type != \SB_MAC16 || (!param(mul, \C_REG, State::S0).as_bool() && !param(mul, \D_REG, State::S0).as_bool()))) {
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(mul->type != \SB_MAC16 || (!param(mul, \C_REG).as_bool() && !param(mul, \D_REG).as_bool()))) {
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argQ = sigCD;
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subpattern(in_dffe);
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if (dff) {
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@ -532,7 +532,7 @@ endcode
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match ff
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select ff->type.in($dff)
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// DSP48E1 does not support clock inversion
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// SB_MAC16 does not support clock inversion
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select param(ff, \CLK_POLARITY).as_bool()
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slice offset GetSize(port(ff, \D))
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@ -95,7 +95,7 @@ code sigA sigB sigC sigD sigM clock
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sigD = port(dsp, \D, SigSpec());
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SigSpec P = port(dsp, \P);
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if (param(dsp, \USE_MULT, Const("MULTIPLY")).decode_string() == "MULTIPLY") {
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if (param(dsp, \USE_MULT).decode_string() == "MULTIPLY") {
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// Only care about those bits that are used
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int i;
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for (i = GetSize(P)-1; i >= 0; i--)
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@ -120,7 +120,7 @@ endcode
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// reset functionality, using a subpattern discussed above)
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// If matched, treat 'A' input as input of ADREG
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code argQ ffAD ffADcemux ffADrstmux ffADcepol ffADrstpol sigA clock
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if (param(dsp, \ADREG, 1).as_int() == 0) {
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if (param(dsp, \ADREG).as_int() == 0) {
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argQ = sigA;
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subpattern(in_dffe);
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if (dff) {
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@ -144,7 +144,7 @@ endcode
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match preAdd
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if sigD.empty() || sigD.is_fully_zero()
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// Ensure that preAdder not already used
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if param(dsp, \USE_DPORT, Const("FALSE")).decode_string() == "FALSE"
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if param(dsp, \USE_DPORT).decode_string() == "FALSE"
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if port(dsp, \INMODE, Const(0, 5)).is_fully_zero()
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select preAdd->type.in($add)
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@ -176,7 +176,7 @@ code argQ ffAD ffADcemux ffADrstmux ffADcepol ffADrstpol sigA clock ffA2 ffA2cem
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// Only search for ffA2 if there was a pre-adder
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// (otherwise ffA2 would have been matched as ffAD)
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if (preAdd) {
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if (param(dsp, \AREG, 1).as_int() == 0) {
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if (param(dsp, \AREG).as_int() == 0) {
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argQ = sigA;
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subpattern(in_dffe);
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if (dff) {
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@ -237,7 +237,7 @@ endcode
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// (5) Match 'B' input for B2REG
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// If B2REG, then match 'B' input for B1REG
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code argQ ffB2 ffB2cemux ffB2rstmux ffB2cepol ffBrstpol sigB clock ffB1 ffB1cemux ffB1rstmux ffB1cepol
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if (param(dsp, \BREG, 1).as_int() == 0) {
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if (param(dsp, \BREG).as_int() == 0) {
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argQ = sigB;
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subpattern(in_dffe);
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if (dff) {
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@ -287,7 +287,7 @@ endcode
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// (6) Match 'D' input for DREG
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code argQ ffD ffDcemux ffDrstmux ffDcepol ffDrstpol sigD clock
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if (param(dsp, \DREG, 1).as_int() == 0) {
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if (param(dsp, \DREG).as_int() == 0) {
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argQ = sigD;
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subpattern(in_dffe);
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if (dff) {
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@ -308,7 +308,7 @@ endcode
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// (7) Match 'P' output that exclusively drives an MREG
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code argD ffM ffMcemux ffMrstmux ffMcepol ffMrstpol sigM sigP clock
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if (param(dsp, \MREG, 1).as_int() == 0 && nusers(sigM) == 2) {
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if (param(dsp, \MREG).as_int() == 0 && nusers(sigM) == 2) {
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argD = sigM;
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subpattern(out_dffe);
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if (dff) {
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@ -363,7 +363,7 @@ endcode
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// (9) Match 'P' output that exclusively drives a PREG
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code argD ffP ffPcemux ffPrstmux ffPcepol ffPrstpol sigP clock
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if (param(dsp, \PREG, 1).as_int() == 0) {
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if (param(dsp, \PREG).as_int() == 0) {
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int users = 2;
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// If ffMcemux and no postAdd new-value net must have three users: ffMcemux, ffM and ffPcemux
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if (ffMcemux && !postAdd) users++;
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@ -424,7 +424,7 @@ endcode
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// to implement this function
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match overflow
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if ffP
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if param(dsp, \USE_PATTERN_DETECT, Const("NO_PATDET")).decode_string() == "NO_PATDET"
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if param(dsp, \USE_PATTERN_DETECT).decode_string() == "NO_PATDET"
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select overflow->type.in($ge)
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select GetSize(port(overflow, \Y)) <= 48
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select port(overflow, \B).is_fully_const()
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@ -42,7 +42,7 @@ udata <bool> dffcepol dffrstpol
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// and (b) uses the 'C' port
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match dsp
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select dsp->type.in(\DSP48A, \DSP48A1, \DSP48E1)
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select param(dsp, \CREG, 1).as_int() == 0
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select param(dsp, \CREG).as_int() == 0
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select nusers(port(dsp, \C, SigSpec())) > 1
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endmatch
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@ -61,7 +61,7 @@ code sigC sigP clock
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SigSpec P = port(dsp, \P);
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if (!dsp->type.in(\DSP48E1) ||
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param(dsp, \USE_MULT, Const("MULTIPLY")).decode_string() == "MULTIPLY") {
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param(dsp, \USE_MULT).decode_string() == "MULTIPLY") {
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// Only care about those bits that are used
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int i;
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for (i = GetSize(P)-1; i >= 0; i--)
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@ -188,7 +188,7 @@ arg next
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// driven by the 'P' output of the previous DSP cell, and (c) has its
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// 'PCIN' port unused
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match nextP
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select !param(nextP, \CREG, State::S1).as_bool()
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select !param(nextP, \CREG).as_bool()
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select (nextP->type.in(\DSP48A, \DSP48A1) && port(nextP, \OPMODE, Const(0, 8)).extract(2,2) == Const::from_string("11")) || (nextP->type.in(\DSP48E1) && port(nextP, \OPMODE, Const(0, 7)).extract(4,3) == Const::from_string("011"))
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select nusers(port(nextP, \C, SigSpec())) > 1
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select nusers(port(nextP, \PCIN, SigSpec())) == 0
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@ -201,7 +201,7 @@ endmatch
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match nextP_shift17
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if !nextP
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select nextP_shift17->type.in(\DSP48E1)
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select !param(nextP_shift17, \CREG, State::S1).as_bool()
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select !param(nextP_shift17, \CREG).as_bool()
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select port(nextP_shift17, \OPMODE, Const(0, 7)).extract(4,3) == Const::from_string("011")
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select nusers(port(nextP_shift17, \C, SigSpec())) > 1
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select nusers(port(nextP_shift17, \PCIN, SigSpec())) == 0
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@ -242,10 +242,10 @@ code argQ clock AREG
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if (next && next->type.in(\DSP48E1)) {
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Cell *prev = std::get<0>(chain.back());
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if (param(next, \A_INPUT, Const("DIRECT")).decode_string() == "DIRECT" &&
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if (param(next, \A_INPUT).decode_string() == "DIRECT" &&
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port(next, \ACIN, SigSpec()).is_fully_zero() &&
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nusers(port(prev, \ACOUT, SigSpec())) <= 1) {
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if (param(prev, \AREG, 2) == 0) {
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if (param(prev, \AREG) == 0) {
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if (port(prev, \A) == port(next, \A))
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AREG = 0;
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}
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|
@ -259,9 +259,9 @@ code argQ clock AREG
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if (dffrstmux && port(dffrstmux, \S) != port(prev, \RSTA, State::S0))
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goto reject_AREG;
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IdString CEA;
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if (param(prev, \AREG, 2) == 1)
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if (param(prev, \AREG) == 1)
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CEA = \CEA2;
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else if (param(prev, \AREG, 2) == 2)
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else if (param(prev, \AREG) == 2)
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CEA = \CEA1;
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else log_abort();
|
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if (!dffcemux && port(prev, CEA, State::S0) != State::S1)
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|
@ -282,11 +282,11 @@ code argQ clock BREG
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BREG = -1;
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if (next) {
|
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Cell *prev = std::get<0>(chain.back());
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if (param(next, \B_INPUT, Const("DIRECT")).decode_string() == "DIRECT" &&
|
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if ((next->type != \DSP48E1 || param(next, \B_INPUT).decode_string() == "DIRECT") &&
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port(next, \BCIN, SigSpec()).is_fully_zero() &&
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nusers(port(prev, \BCOUT, SigSpec())) <= 1) {
|
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if ((next->type.in(\DSP48A, \DSP48A1) && param(prev, \B0REG, 0) == 0 && param(prev, \B1REG, 1) == 0) ||
|
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(next->type.in(\DSP48E1) && param(prev, \BREG, 2) == 0)) {
|
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if ((next->type.in(\DSP48A, \DSP48A1) && param(prev, \B0REG) == 0 && param(prev, \B1REG) == 0) ||
|
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(next->type.in(\DSP48E1) && param(prev, \BREG) == 0)) {
|
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if (port(prev, \B) == port(next, \B))
|
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BREG = 0;
|
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}
|
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|
@ -303,9 +303,9 @@ code argQ clock BREG
|
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if (next->type.in(\DSP48A, \DSP48A1))
|
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CEB = \CEB;
|
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else if (next->type.in(\DSP48E1)) {
|
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if (param(prev, \BREG, 2) == 1)
|
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if (param(prev, \BREG) == 1)
|
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CEB = \CEB2;
|
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else if (param(prev, \BREG, 2) == 2)
|
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else if (param(prev, \BREG) == 2)
|
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CEB = \CEB1;
|
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else log_abort();
|
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}
|
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|
@ -315,7 +315,7 @@ code argQ clock BREG
|
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if (dffcemux && port(dffcemux, \S) != port(prev, CEB, State::S0))
|
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goto reject_BREG;
|
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if (dffD == unextend(port(prev, \B))) {
|
||||
if (next->type.in(\DSP48A, \DSP48A1) && param(prev, \B0REG, 0) != 0)
|
||||
if (next->type.in(\DSP48A, \DSP48A1) && param(prev, \B0REG) != 0)
|
||||
goto reject_BREG;
|
||||
BREG = 1;
|
||||
}
|
||||
|
|
|
@ -48,7 +48,7 @@ void run_fixed(xilinx_srl_pm &pm)
|
|||
initval.append(State::Sx);
|
||||
}
|
||||
else if (cell->type.in(ID(FDRE), ID(FDRE_1))) {
|
||||
if (cell->parameters.at(ID::INIT, State::S0).as_bool())
|
||||
if (cell->getParam(ID::INIT).as_bool())
|
||||
initval.append(State::S1);
|
||||
else
|
||||
initval.append(State::S0);
|
||||
|
@ -71,7 +71,7 @@ void run_fixed(xilinx_srl_pm &pm)
|
|||
else if (first_cell->type.in(ID($_DFF_N_), ID($_DFFE_NN_), ID($_DFFE_NP_), ID(FDRE_1)))
|
||||
c->setParam(ID(CLKPOL), 0);
|
||||
else if (first_cell->type.in(ID(FDRE))) {
|
||||
if (!first_cell->parameters.at(ID(IS_C_INVERTED), State::S0).as_bool())
|
||||
if (!first_cell->getParam(ID(IS_C_INVERTED)).as_bool())
|
||||
c->setParam(ID(CLKPOL), 1);
|
||||
else
|
||||
c->setParam(ID(CLKPOL), 0);
|
||||
|
|
|
@ -13,8 +13,8 @@ endcode
|
|||
match first
|
||||
select first->type.in($_DFF_N_, $_DFF_P_, $_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_, \FDRE, \FDRE_1)
|
||||
select !first->has_keep_attr()
|
||||
select !first->type.in(\FDRE) || !param(first, \IS_R_INVERTED, State::S0).as_bool()
|
||||
select !first->type.in(\FDRE) || !param(first, \IS_D_INVERTED, State::S0).as_bool()
|
||||
select !first->type.in(\FDRE) || !param(first, \IS_R_INVERTED).as_bool()
|
||||
select !first->type.in(\FDRE) || !param(first, \IS_D_INVERTED).as_bool()
|
||||
select !first->type.in(\FDRE, \FDRE_1) || port(first, \R, State::S0).is_fully_zero()
|
||||
filter !non_first_cells.count(first)
|
||||
generate
|
||||
|
@ -84,8 +84,8 @@ arg en_port
|
|||
match first
|
||||
select first->type.in($_DFF_N_, $_DFF_P_, $_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_, \FDRE, \FDRE_1)
|
||||
select !first->has_keep_attr()
|
||||
select !first->type.in(\FDRE) || !param(first, \IS_R_INVERTED, State::S0).as_bool()
|
||||
select !first->type.in(\FDRE) || !param(first, \IS_D_INVERTED, State::S0).as_bool()
|
||||
select !first->type.in(\FDRE) || !param(first, \IS_R_INVERTED).as_bool()
|
||||
select !first->type.in(\FDRE) || !param(first, \IS_D_INVERTED).as_bool()
|
||||
select !first->type.in(\FDRE, \FDRE_1) || port(first, \R, State::S0).is_fully_zero()
|
||||
endmatch
|
||||
|
||||
|
@ -111,9 +111,9 @@ match next
|
|||
index <SigBit> port(next, \Q) === port(first, \D)
|
||||
filter port(next, clk_port) == port(first, clk_port)
|
||||
filter en_port == IdString() || port(next, en_port) == port(first, en_port)
|
||||
filter !first->type.in(\FDRE) || param(next, \IS_C_INVERTED, State::S0).as_bool() == param(first, \IS_C_INVERTED, State::S0).as_bool()
|
||||
filter !first->type.in(\FDRE) || param(next, \IS_D_INVERTED, State::S0).as_bool() == param(first, \IS_D_INVERTED, State::S0).as_bool()
|
||||
filter !first->type.in(\FDRE) || param(next, \IS_R_INVERTED, State::S0).as_bool() == param(first, \IS_R_INVERTED, State::S0).as_bool()
|
||||
filter !first->type.in(\FDRE) || param(next, \IS_C_INVERTED).as_bool() == param(first, \IS_C_INVERTED).as_bool()
|
||||
filter !first->type.in(\FDRE) || param(next, \IS_D_INVERTED).as_bool() == param(first, \IS_D_INVERTED).as_bool()
|
||||
filter !first->type.in(\FDRE) || param(next, \IS_R_INVERTED).as_bool() == param(first, \IS_R_INVERTED).as_bool()
|
||||
filter !first->type.in(\FDRE, \FDRE_1) || port(next, \R, State::S0).is_fully_zero()
|
||||
endmatch
|
||||
|
||||
|
@ -138,9 +138,9 @@ match next
|
|||
index <SigBit> port(next, \Q) === port(chain.back(), \D)
|
||||
filter port(next, clk_port) == port(first, clk_port)
|
||||
filter en_port == IdString() || port(next, en_port) == port(first, en_port)
|
||||
filter !first->type.in(\FDRE) || param(next, \IS_C_INVERTED, State::S0).as_bool() == param(first, \IS_C_INVERTED, State::S0).as_bool()
|
||||
filter !first->type.in(\FDRE) || param(next, \IS_D_INVERTED, State::S0).as_bool() == param(first, \IS_D_INVERTED, State::S0).as_bool()
|
||||
filter !first->type.in(\FDRE) || param(next, \IS_R_INVERTED, State::S0).as_bool() == param(first, \IS_R_INVERTED, State::S0).as_bool()
|
||||
filter !first->type.in(\FDRE) || param(next, \IS_C_INVERTED).as_bool() == param(first, \IS_C_INVERTED).as_bool()
|
||||
filter !first->type.in(\FDRE) || param(next, \IS_D_INVERTED).as_bool() == param(first, \IS_D_INVERTED).as_bool()
|
||||
filter !first->type.in(\FDRE) || param(next, \IS_R_INVERTED).as_bool() == param(first, \IS_R_INVERTED).as_bool()
|
||||
filter !first->type.in(\FDRE, \FDRE_1) || port(next, \R, State::S0).is_fully_zero()
|
||||
generate
|
||||
Cell *cell = module->addCell(NEW_ID, chain.back()->type);
|
||||
|
|
|
@ -106,9 +106,7 @@ struct Ecp5FfinitPass : public Pass {
|
|||
SigBit bit_d = sigmap(sig_d[0]);
|
||||
SigBit bit_q = sigmap(sig_q[0]);
|
||||
|
||||
std::string regset = "RESET";
|
||||
if (cell->hasParam(ID(REGSET)))
|
||||
regset = cell->getParam(ID(REGSET)).decode_string();
|
||||
std::string regset = cell->getParam(ID(REGSET)).decode_string();
|
||||
State resetState;
|
||||
if (regset == "SET")
|
||||
resetState = State::S1;
|
||||
|
@ -135,9 +133,7 @@ struct Ecp5FfinitPass : public Pass {
|
|||
}
|
||||
|
||||
if (GetSize(sig_lsr) >= 1 && sig_lsr[0] != State::S0) {
|
||||
std::string srmode = "LSR_OVER_CE";
|
||||
if (cell->hasParam(ID(SRMODE)))
|
||||
srmode = cell->getParam(ID(SRMODE)).decode_string();
|
||||
std::string srmode = cell->getParam(ID(SRMODE)).decode_string();
|
||||
if (srmode == "ASYNC") {
|
||||
log("Async reset value %c for FF cell %s inconsistent with init value %c.\n",
|
||||
resetState != State::S0 ? '1' : '0', log_id(cell), val != State::S0 ? '1' : '0');
|
||||
|
@ -154,9 +150,7 @@ struct Ecp5FfinitPass : public Pass {
|
|||
cell->setPort(ID(LSR), State::S0);
|
||||
|
||||
if(cell->hasPort(ID(CE))) {
|
||||
std::string cemux = "CE";
|
||||
if (cell->hasParam(ID(CEMUX)))
|
||||
cemux = cell->getParam(ID(CEMUX)).decode_string();
|
||||
std::string cemux = cell->getParam(ID(CEMUX)).decode_string();
|
||||
SigSpec sig_ce = cell->getPort(ID(CE));
|
||||
if (GetSize(sig_ce) >= 1) {
|
||||
SigBit bit_ce = sigmap(sig_ce[0]);
|
||||
|
|
|
@ -81,7 +81,7 @@ struct Ecp5GsrPass : public Pass {
|
|||
|
||||
for (auto cell : module->selected_cells())
|
||||
{
|
||||
if (!cell->hasParam(ID(GSR)) || cell->getParam(ID(GSR)).decode_string() != "AUTO")
|
||||
if (cell->getParam(ID(GSR)).decode_string() != "AUTO")
|
||||
continue;
|
||||
|
||||
bool gsren = found_gsr;
|
||||
|
@ -114,9 +114,9 @@ struct Ecp5GsrPass : public Pass {
|
|||
{
|
||||
if (cell->type != ID(TRELLIS_FF))
|
||||
continue;
|
||||
if (!cell->hasParam(ID(GSR)) || cell->getParam(ID(GSR)).decode_string() != "ENABLED")
|
||||
if (cell->getParam(ID(GSR)).decode_string() != "ENABLED")
|
||||
continue;
|
||||
if (!cell->hasParam(ID(SRMODE)) || cell->getParam(ID(SRMODE)).decode_string() != "ASYNC")
|
||||
if (cell->getParam(ID(SRMODE)).decode_string() != "ASYNC")
|
||||
continue;
|
||||
SigSpec sig_lsr = cell->getPort(ID(LSR));
|
||||
if (GetSize(sig_lsr) < 1)
|
||||
|
|
Loading…
Reference in New Issue