refactored gate verilog generation

vpr7_x2p/vpr/SRC/fpga_x2p/base/link_arch_circuit_lib.cpp

@@ -234,8 +234,9 @@ t_port* find_pb_type_port_match_circuit_model_port(const t_pb_type* pb_type,
       case SPICE_MODEL_PORT_SRAM:
         break;
       default:
-        vpr_printf(TIO_MESSAGE_ERROR,"(File:%s, [LINE%d])Invalid type for circuit model port(%s)!\n",
-                   __FILE__, __LINE__, circuit_lib.port_prefix(circuit_port));
+        vpr_printf(TIO_MESSAGE_ERROR,
+                   "(File:%s, [LINE%d])Invalid type for circuit model port(%s)!\n",
+                   __FILE__, __LINE__, circuit_lib.port_prefix(circuit_port).c_str());
         exit(1);
       }
     }

vpr7_x2p/vpr/SRC/fpga_x2p/verilog/verilog_essential_gates.cpp

@@ -331,6 +331,222 @@ void print_verilog_passgate_module(std::fstream& fp,
   print_verilog_module_end(fp, circuit_lib.model_name(circuit_model));
 }
 
+/************************************************
+ * Print Verilog body codes of an N-input AND gate
+ ***********************************************/
+static 
+void print_verilog_and_or_gate_body(std::fstream& fp,
+                                    const CircuitLibrary& circuit_lib,
+                                    const CircuitModelId& circuit_model,
+                                    const std::vector<CircuitPortId>& input_ports,
+                                    const std::vector<CircuitPortId>& output_ports) {
+  /* Ensure a valid file handler*/
+  check_file_handler(fp);
+
+  /* Find the logic operator for the gate */
+  std::string gate_verilog_operator;
+  switch (circuit_lib.gate_type(circuit_model)) {
+  case SPICE_MODEL_GATE_AND:
+    gate_verilog_operator = "&";
+    break;
+  case SPICE_MODEL_GATE_OR:
+    gate_verilog_operator = "|";
+    break;
+  default:
+    vpr_printf(TIO_MESSAGE_ERROR,
+               "(File:%s,[LINE%d])Invalid topology for circuit model (name=%s)!\n",
+               __FILE__, __LINE__, circuit_lib.model_name(circuit_model).c_str());
+    exit(1);
+  }
+
+  /* Output verilog codes */
+  print_verilog_comment(fp, std::string("----- Verilog codes of a " + std::to_string(input_ports.size()) + "-input " + std::to_string(output_ports.size()) + "-output AND gate -----"));
+
+  for (const auto& output_port : output_ports) {
+    for (const auto& output_pin : circuit_lib.pins(output_port)) {
+      BasicPort output_port_info(circuit_lib.port_lib_name(output_port), output_pin, output_pin);
+      fp << "\tassign " << generate_verilog_port(VERILOG_PORT_CONKT, output_port_info);
+      fp << " = ";
+
+      size_t port_cnt = 0;
+      for (const auto& input_port : input_ports) {
+        for (const auto& input_pin : circuit_lib.pins(input_port)) {
+          /* Do not output AND/OR operator for the first element in the loop */
+          if (0 < port_cnt) {
+            fp << " " << gate_verilog_operator << " ";
+          }
+
+          BasicPort input_port_info(circuit_lib.port_lib_name(input_port), input_pin, input_pin);
+          fp << generate_verilog_port(VERILOG_PORT_CONKT, input_port_info);
+            
+          /* Increment the counter for port */ 
+          port_cnt++;
+        }
+      }
+      fp << ";" << std::endl;
+    }
+  }
+}
+
+/************************************************
+ * Print Verilog body codes of an 2-input MUX gate
+ ***********************************************/
+static 
+void print_verilog_mux2_gate_body(std::fstream& fp,
+                                  const CircuitLibrary& circuit_lib,
+                                  const CircuitModelId& circuit_model,
+                                  const std::vector<CircuitPortId>& input_ports,
+                                  const std::vector<CircuitPortId>& output_ports) {
+  /* Ensure a valid file handler*/
+  check_file_handler(fp);
+
+  /* TODO: Move the check codes to check_circuit_library.cpp */
+  size_t num_err = 0;
+  /* Check on the port sequence and map */
+  /* MUX2 should only have 1 output port with size 1 */
+  if (1 != output_ports.size()) {
+    vpr_printf(TIO_MESSAGE_ERROR, 
+               "(File:%s, [LINE%d]) MUX2 circuit model (%s) must have only 1 output!\n",
+               __FILE__, __LINE__, circuit_lib.model_name(circuit_model).c_str());
+    num_err++;
+  } 
+  for (const auto& output_port : output_ports) {  
+    /* Bypass port size of 1 */
+    if (1 == circuit_lib.port_size(output_port)) {
+      continue;
+    }
+    vpr_printf(TIO_MESSAGE_ERROR, 
+               "(File:%s, [LINE%d]) Output port size of a MUX2 circuit model (%s) must be 1!\n",
+               __FILE__, __LINE__, circuit_lib.model_name(circuit_model).c_str());
+    num_err++;
+  }
+  /* MUX2 should only have 3 output port, each of which has a port size of 1 */
+  if (3 != input_ports.size()) {
+    vpr_printf(TIO_MESSAGE_ERROR, 
+               "(File:%s, [LINE%d]) MUX2 circuit model (%s) must have only 3 input!\n",
+               __FILE__, __LINE__, circuit_lib.model_name(circuit_model).c_str());
+    num_err++;
+  }
+
+  for (const auto& input_port : input_ports) {  
+    /* Bypass port size of 1 */
+    if (1 == circuit_lib.port_size(input_port)) {
+      continue;
+    }
+    vpr_printf(TIO_MESSAGE_ERROR, 
+               "(File:%s, [LINE%d]) Input size MUX2 circuit model (%s) must be 1!\n",
+               __FILE__, __LINE__, circuit_lib.model_name(circuit_model).c_str());
+    num_err++;
+  }
+  if (0 < num_err) {
+    exit(1);
+  }
+
+  /* Now, we output the logic of MUX2
+   * IMPORTANT Restriction:
+   * We always assum the first two inputs are data inputs
+   * the third input is the select port  
+   */
+  fp << "\tassign ";
+  BasicPort out_port_info(circuit_lib.port_lib_name(output_ports[0]), 0, 0);
+  BasicPort sel_port_info(circuit_lib.port_lib_name(input_ports[2]), 0, 0);
+  BasicPort in0_port_info(circuit_lib.port_lib_name(input_ports[0]), 0, 0);
+  BasicPort in1_port_info(circuit_lib.port_lib_name(input_ports[1]), 0, 0);
+
+  fp << generate_verilog_port(VERILOG_PORT_CONKT, out_port_info);
+  fp << " = ";
+  fp << generate_verilog_port(VERILOG_PORT_CONKT, sel_port_info);
+  fp << " ? ";
+  fp << generate_verilog_port(VERILOG_PORT_CONKT, in0_port_info);
+  fp << " : ";
+  fp << generate_verilog_port(VERILOG_PORT_CONKT, in1_port_info);
+  fp << ";" << std::endl;
+}
+
+/************************************************
+ * Print a Verilog module of a logic gate
+ * which are standard cells
+ * Supported gate types: 
+ * 1. N-input AND 
+ * 2. N-input OR
+ * 3. 2-input MUX
+ ***********************************************/
+static 
+void print_verilog_gate_module(std::fstream& fp,
+                               const CircuitLibrary& circuit_lib,
+                               const CircuitModelId& circuit_model) {
+  /* Ensure a valid file handler*/
+  check_file_handler(fp);
+
+  /* Find the input port, output port*/
+  std::vector<CircuitPortId> input_ports = circuit_lib.model_ports_by_type(circuit_model, SPICE_MODEL_PORT_INPUT, true);
+  std::vector<CircuitPortId> output_ports = circuit_lib.model_ports_by_type(circuit_model, SPICE_MODEL_PORT_OUTPUT, true);
+  std::vector<CircuitPortId> global_ports = circuit_lib.model_global_ports_by_type(circuit_model, SPICE_MODEL_PORT_INPUT);
+
+  /* Make sure:
+   * There is only 1 output port, 
+   * each size of which is 1
+   */
+  VTR_ASSERT( (1 == output_ports.size()) && (1 == circuit_lib.port_size(output_ports[0])) );
+
+  /* Print Verilog module */
+  print_verilog_module_definition(fp, circuit_lib.model_name(circuit_model));
+
+  /* TODO: print global ports, this should be handled by ModuleManager */
+  for (const auto& port : global_ports) {
+    /* Configure each global port */
+    BasicPort basic_port(circuit_lib.port_lib_name(port), circuit_lib.port_size(port));
+    /* Print port */
+    fp << "\t" << generate_verilog_port(VERILOG_PORT_INPUT, basic_port) << "," << std::endl;
+  }
+
+  for (const auto& input_port : input_ports) {
+    /* Configure each global port */
+    BasicPort basic_port(circuit_lib.port_lib_name(input_port), circuit_lib.port_size(input_port));
+    /* Print port */
+    fp << "\t" << generate_verilog_port(VERILOG_PORT_INPUT, basic_port) << "," << std::endl;
+  }
+
+  /* Configure each global port */
+  for (const auto& output_port : output_ports) {
+    BasicPort basic_port(circuit_lib.port_lib_name(output_port), circuit_lib.port_size(output_port));
+    /* Print port */
+    fp << "\t" << generate_verilog_port(VERILOG_PORT_OUTPUT, basic_port);
+    /* Last port does not need a comma */
+    if (output_port != output_ports.back()) {
+      fp << "," << std::endl;
+    } else {
+      fp << std::endl;
+    }
+  }
+  fp << ");" << std::endl;
+
+  /* Dump logics */
+  switch (circuit_lib.gate_type(circuit_model)) {
+  case SPICE_MODEL_GATE_AND:
+  case SPICE_MODEL_GATE_OR:
+    print_verilog_and_or_gate_body(fp, circuit_lib, circuit_model, input_ports, output_ports);
+    break;
+  case SPICE_MODEL_GATE_MUX2:
+    print_verilog_mux2_gate_body(fp, circuit_lib, circuit_model, input_ports, output_ports);
+    break;
+  default:
+    vpr_printf(TIO_MESSAGE_ERROR,
+               "(File:%s,[LINE%d])Invalid topology for circuit model (name=%s)!\n",
+               __FILE__, __LINE__, circuit_lib.model_name(circuit_model).c_str());
+    exit(1);
+  }
+
+  /* Print timing info */
+  print_verilog_submodule_timing(fp, circuit_lib, circuit_model);
+
+  /* Print signal initialization */
+  print_verilog_submodule_signal_init(fp, circuit_lib, circuit_model);
+   
+  /* Put an end to the Verilog module */
+  print_verilog_module_end(fp, circuit_lib.model_name(circuit_model));
+}
+
 /************************************************
  * Generate the Verilog netlist for essential gates
  * include inverters, buffers, transmission-gates,
@@ -365,15 +581,16 @@ void print_verilog_submodule_essentials(const std::string& verilog_dir,
     }
     if (SPICE_MODEL_INVBUF == circuit_lib.model_type(circuit_model)) {
       print_verilog_invbuf_module(fp, circuit_lib, circuit_model);
+      continue;
     }
     if (SPICE_MODEL_PASSGATE == circuit_lib.model_type(circuit_model)) {
       print_verilog_passgate_module(fp, circuit_lib, circuit_model);
+      continue;
     }
-    /*
-    if (SPICE_MODEL_GATE == spice_models[imodel].type) {
-      dump_verilog_gate_module(fp, &(spice_models[imodel]));
+    if (SPICE_MODEL_GATE == circuit_lib.model_type(circuit_model)) {
+      print_verilog_gate_module(fp, circuit_lib, circuit_model);
+      continue;
     }
-    */
   }
   
   /* Close file handler*/

vpr7_x2p/vpr/SRC/fpga_x2p/verilog/verilog_submodule_utils.cpp

@@ -95,13 +95,20 @@ void print_verilog_submodule_signal_init(std::fstream& fp,
   /* Only for formal verification: deposite a zero signal values */
   /* Initialize each input port */
   for (const auto& input_port : circuit_lib.model_input_ports(circuit_model)) {
-    fp << "\t\t$deposit(" << circuit_lib.port_lib_name(input_port) << ", 1'b0);" << std::endl;
+    BasicPort input_port_info(circuit_lib.port_lib_name(input_port), circuit_lib.port_size(input_port));
+    fp << "\t\t$deposit(";
+    fp << generate_verilog_port(VERILOG_PORT_CONKT, input_port_info);
+    fp << ", " <<  circuit_lib.port_size(input_port) << "'b" << std::string(circuit_lib.port_size(input_port), '0');
+    fp << ");" << std::endl;
   }
   fp << "\t`else" << std::endl;
 
   /* Regular case: deposite initial signal values: a random value */
   for (const auto& input_port : circuit_lib.model_input_ports(circuit_model)) {
-    fp << "\t\t$deposit(" << circuit_lib.port_lib_name(input_port) << ", $random);" << std::endl;
+    BasicPort input_port_info(circuit_lib.port_lib_name(input_port), circuit_lib.port_size(input_port));
+    fp << "\t\t$deposit(";
+    fp << generate_verilog_port(VERILOG_PORT_CONKT, input_port_info);
+    fp << ", $random);" << std::endl;
   }
 
   fp << "\t`endif\n" << std::endl;

vpr7_x2p/vpr/SRC/fpga_x2p/verilog/verilog_writer_utils.cpp

@@ -107,7 +107,7 @@ std::string generate_verilog_port(const enum e_dump_verilog_port_type& verilog_p
    * others require a format of <port_type> [<lsb>:<msb>] <port_name> 
    */
   if (VERILOG_PORT_CONKT == verilog_port_type) {
-    verilog_line = port_info.get_name() + " " + size_str;
+    verilog_line = port_info.get_name() + size_str;
   } else { 
     verilog_line = VERILOG_PORT_TYPE_STRING[verilog_port_type]; 
     verilog_line += " " + size_str + " " + port_info.get_name();