opt_lut: make less chatty.

This commit is contained in:
whitequark 2019-07-13 16:49:56 +00:00
parent 463f710066
commit 2de7e92bb8
1 changed files with 38 additions and 56 deletions

View File

@ -105,7 +105,7 @@ struct OptLutWorker
SigSpec lut_input = cell->getPort("\\A");
int lut_arity = 0;
log("Found $lut\\WIDTH=%d cell %s.%s.\n", lut_width, log_id(module), log_id(cell));
log_debug("Found $lut\\WIDTH=%d cell %s.%s.\n", lut_width, log_id(module), log_id(cell));
luts.insert(cell);
// First, find all dedicated logic we're connected to. This results in an overapproximation
@ -147,15 +147,15 @@ struct OptLutWorker
{
if (lut_width <= dlogic_conn.first)
{
log(" LUT has illegal connection to %s cell %s.%s.\n", lut_dlogic->type.c_str(), log_id(module), log_id(lut_dlogic));
log(" LUT input A[%d] not present.\n", dlogic_conn.first);
log_debug(" LUT has illegal connection to %s cell %s.%s.\n", lut_dlogic->type.c_str(), log_id(module), log_id(lut_dlogic));
log_debug(" LUT input A[%d] not present.\n", dlogic_conn.first);
legal = false;
break;
}
if (sigmap(lut_input[dlogic_conn.first]) != sigmap(lut_dlogic->getPort(dlogic_conn.second)))
{
log(" LUT has illegal connection to %s cell %s.%s.\n", lut_dlogic->type.c_str(), log_id(module), log_id(lut_dlogic));
log(" LUT input A[%d] (wire %s) not connected to %s port %s (wire %s).\n", dlogic_conn.first, log_signal(lut_input[dlogic_conn.first]), lut_dlogic->type.c_str(), dlogic_conn.second.c_str(), log_signal(lut_dlogic->getPort(dlogic_conn.second)));
log_debug(" LUT has illegal connection to %s cell %s.%s.\n", lut_dlogic->type.c_str(), log_id(module), log_id(lut_dlogic));
log_debug(" LUT input A[%d] (wire %s) not connected to %s port %s (wire %s).\n", dlogic_conn.first, log_signal(lut_input[dlogic_conn.first]), lut_dlogic->type.c_str(), dlogic_conn.second.c_str(), log_signal(lut_dlogic->getPort(dlogic_conn.second)));
legal = false;
break;
}
@ -163,7 +163,7 @@ struct OptLutWorker
if (legal)
{
log(" LUT has legal connection to %s cell %s.%s.\n", lut_dlogic->type.c_str(), log_id(module), log_id(lut_dlogic));
log_debug(" LUT has legal connection to %s cell %s.%s.\n", lut_dlogic->type.c_str(), log_id(module), log_id(lut_dlogic));
lut_legal_dlogics.insert(lut_dlogic);
for (auto &dlogic_conn : dlogic_map)
lut_dlogic_inputs.insert(dlogic_conn.first);
@ -179,7 +179,7 @@ struct OptLutWorker
lut_arity++;
}
log(" Cell implements a %d-LUT.\n", lut_arity);
log_debug(" Cell implements a %d-LUT.\n", lut_arity);
luts_arity[cell] = lut_arity;
luts_dlogics[cell] = lut_legal_dlogics;
luts_dlogic_inputs[cell] = lut_dlogic_inputs;
@ -239,28 +239,26 @@ struct OptLutWorker
if (const0_match || const1_match || input_match != -1)
{
log("Found redundant cell %s.%s.\n", log_id(module), log_id(lut));
log_debug("Found redundant cell %s.%s.\n", log_id(module), log_id(lut));
SigBit value;
if (const0_match)
{
log(" Cell evaluates constant 0.\n");
log_debug(" Cell evaluates constant 0.\n");
value = State::S0;
}
if (const1_match)
{
log(" Cell evaluates constant 1.\n");
log_debug(" Cell evaluates constant 1.\n");
value = State::S1;
}
if (input_match != -1) {
log(" Cell evaluates signal %s.\n", log_signal(lut_inputs[input_match]));
log_debug(" Cell evaluates signal %s.\n", log_signal(lut_inputs[input_match]));
value = lut_inputs[input_match];
}
if (lut_dlogic_inputs.size())
{
log(" Not eliminating cell (connected to dedicated logic).\n");
}
log_debug(" Not eliminating cell (connected to dedicated logic).\n");
else
{
SigSpec lut_output = lut->getPort("\\Y");
@ -323,11 +321,11 @@ struct OptLutWorker
int lutB_arity = luts_arity[lutB];
pool<int> &lutB_dlogic_inputs = luts_dlogic_inputs[lutB];
log("Found %s.%s (cell A) feeding %s.%s (cell B).\n", log_id(module), log_id(lutA), log_id(module), log_id(lutB));
log_debug("Found %s.%s (cell A) feeding %s.%s (cell B).\n", log_id(module), log_id(lutA), log_id(module), log_id(lutB));
if (index.query_is_output(lutA->getPort("\\Y")))
{
log(" Not combining LUTs (cascade connection feeds module output).\n");
log_debug(" Not combining LUTs (cascade connection feeds module output).\n");
continue;
}
@ -353,67 +351,51 @@ struct OptLutWorker
int lutM_arity = lutA_arity + lutB_arity - 1 - common_inputs.size();
if (lutA_dlogic_inputs.size())
log(" Cell A is a %d-LUT with %zu dedicated connections. ", lutA_arity, lutA_dlogic_inputs.size());
log_debug(" Cell A is a %d-LUT with %zu dedicated connections. ", lutA_arity, lutA_dlogic_inputs.size());
else
log(" Cell A is a %d-LUT. ", lutA_arity);
log_debug(" Cell A is a %d-LUT. ", lutA_arity);
if (lutB_dlogic_inputs.size())
log("Cell B is a %d-LUT with %zu dedicated connections.\n", lutB_arity, lutB_dlogic_inputs.size());
log_debug("Cell B is a %d-LUT with %zu dedicated connections.\n", lutB_arity, lutB_dlogic_inputs.size());
else
log("Cell B is a %d-LUT.\n", lutB_arity);
log(" Cells share %zu input(s) and can be merged into one %d-LUT.\n", common_inputs.size(), lutM_arity);
log_debug("Cell B is a %d-LUT.\n", lutB_arity);
log_debug(" Cells share %zu input(s) and can be merged into one %d-LUT.\n", common_inputs.size(), lutM_arity);
const int COMBINE_A = 1, COMBINE_B = 2, COMBINE_EITHER = COMBINE_A | COMBINE_B;
int combine_mask = 0;
if (lutM_arity > lutA_width)
{
log(" Not combining LUTs into cell A (combined LUT wider than cell A).\n");
}
log_debug(" Not combining LUTs into cell A (combined LUT wider than cell A).\n");
else if (lutB_dlogic_inputs.size() > 0)
{
log(" Not combining LUTs into cell A (cell B is connected to dedicated logic).\n");
}
log_debug(" Not combining LUTs into cell A (cell B is connected to dedicated logic).\n");
else if (lutB->get_bool_attribute("\\lut_keep"))
{
log(" Not combining LUTs into cell A (cell B has attribute \\lut_keep).\n");
}
log_debug(" Not combining LUTs into cell A (cell B has attribute \\lut_keep).\n");
else
{
combine_mask |= COMBINE_A;
}
if (lutM_arity > lutB_width)
{
log(" Not combining LUTs into cell B (combined LUT wider than cell B).\n");
}
log_debug(" Not combining LUTs into cell B (combined LUT wider than cell B).\n");
else if (lutA_dlogic_inputs.size() > 0)
{
log(" Not combining LUTs into cell B (cell A is connected to dedicated logic).\n");
}
log_debug(" Not combining LUTs into cell B (cell A is connected to dedicated logic).\n");
else if (lutA->get_bool_attribute("\\lut_keep"))
{
log(" Not combining LUTs into cell B (cell A has attribute \\lut_keep).\n");
}
log_debug(" Not combining LUTs into cell B (cell A has attribute \\lut_keep).\n");
else
{
combine_mask |= COMBINE_B;
}
int combine = combine_mask;
if (combine == COMBINE_EITHER)
{
log(" Can combine into either cell.\n");
log_debug(" Can combine into either cell.\n");
if (lutA_arity == 1)
{
log(" Cell A is a buffer or inverter, combining into cell B.\n");
log_debug(" Cell A is a buffer or inverter, combining into cell B.\n");
combine = COMBINE_B;
}
else if (lutB_arity == 1)
{
log(" Cell B is a buffer or inverter, combining into cell A.\n");
log_debug(" Cell B is a buffer or inverter, combining into cell A.\n");
combine = COMBINE_A;
}
else
{
log(" Arbitrarily combining into cell A.\n");
log_debug(" Arbitrarily combining into cell A.\n");
combine = COMBINE_A;
}
}
@ -423,7 +405,7 @@ struct OptLutWorker
pool<int> lutM_dlogic_inputs;
if (combine == COMBINE_A)
{
log(" Combining LUTs into cell A.\n");
log_debug(" Combining LUTs into cell A.\n");
lutM = lutA;
lutM_inputs = lutA_inputs;
lutM_dlogic_inputs = lutA_dlogic_inputs;
@ -432,7 +414,7 @@ struct OptLutWorker
}
else if (combine == COMBINE_B)
{
log(" Combining LUTs into cell B.\n");
log_debug(" Combining LUTs into cell B.\n");
lutM = lutB;
lutM_inputs = lutB_inputs;
lutM_dlogic_inputs = lutB_dlogic_inputs;
@ -441,7 +423,7 @@ struct OptLutWorker
}
else
{
log(" Cannot combine LUTs.\n");
log_debug(" Cannot combine LUTs.\n");
continue;
}
@ -466,17 +448,17 @@ struct OptLutWorker
if (input_unused && lutR_unique.size())
{
SigBit new_input = lutR_unique.pop();
log(" Connecting input %d as %s.\n", i, log_signal(new_input));
log_debug(" Connecting input %d as %s.\n", i, log_signal(new_input));
lutM_new_inputs.push_back(new_input);
}
else if (sigmap(lutM_input[i]) == lutA_output)
{
log(" Disconnecting cascade input %d.\n", i);
log_debug(" Disconnecting cascade input %d.\n", i);
lutM_new_inputs.push_back(SigBit());
}
else
{
log(" Leaving input %d as %s.\n", i, log_signal(lutM_input[i]));
log_debug(" Leaving input %d as %s.\n", i, log_signal(lutM_input[i]));
lutM_new_inputs.push_back(lutM_input[i]);
}
}
@ -494,9 +476,9 @@ struct OptLutWorker
lutM_new_table[eval] = (RTLIL::State) evaluate_lut(lutB, eval_inputs);
}
log(" Cell A truth table: %s.\n", lutA->getParam("\\LUT").as_string().c_str());
log(" Cell B truth table: %s.\n", lutB->getParam("\\LUT").as_string().c_str());
log(" Merged truth table: %s.\n", lutM_new_table.as_string().c_str());
log_debug(" Cell A truth table: %s.\n", lutA->getParam("\\LUT").as_string().c_str());
log_debug(" Cell B truth table: %s.\n", lutB->getParam("\\LUT").as_string().c_str());
log_debug(" Merged truth table: %s.\n", lutM_new_table.as_string().c_str());
lutM->setParam("\\LUT", lutM_new_table);
lutM->setPort("\\A", lutM_new_inputs);