OpenFPGA/yosys/libs/subcircuit/test_large.spl

#!/usr/bin/env splrun

var idx = 0;
var count_nand = 0;
var count_nor = 0;

function makeNAND(net, id)
{
	count_nand++;

	net["${id}_VDD"] = "${id}_pa S";
	net["${id}_VSS"] = "${id}_nb S";

	net["${id}_A"] = "${id}_pa G";
	net["${id}_B"] = "${id}_pb G";
	net["${id}_Y"] = "${id}_pb D";

	return <:>
		:   node ${id}_pa pmos S 1 D 1 G 1
		:   node ${id}_pb pmos S 1 D 1 G 1
		:   node ${id}_na nmos S 1 D 1 G 1
		:   node ${id}_nb nmos S 1 D 1 G 1
		:   connect ${id}_pa S ${id}_pb S
		:   connect ${id}_pa D ${id}_pb D
		:   connect ${id}_pa D ${id}_na D
		:   connect ${id}_na S ${id}_nb D
		:   connect ${id}_pa G ${id}_na G
		:   connect ${id}_pb G ${id}_nb G
	</>;
}

function makeNOR(net, id)
{
	count_nor++;

	net["${id}_VDD"] = "${id}_pa S";
	net["${id}_VSS"] = "${id}_nb S";

	net["${id}_A"] = "${id}_pa G";
	net["${id}_B"] = "${id}_pb G";
	net["${id}_Y"] = "${id}_pb D";

	return <:>
		:   node ${id}_pa pmos S 1 D 1 G 1
		:   node ${id}_pb pmos S 1 D 1 G 1
		:   node ${id}_na nmos S 1 D 1 G 1
		:   node ${id}_nb nmos S 1 D 1 G 1
		:   connect ${id}_pa D ${id}_pb S
		:   connect ${id}_pb D ${id}_na D
		:   connect ${id}_pb D ${id}_nb D
		:   connect ${id}_na S ${id}_nb S
		:   connect ${id}_pa G ${id}_na G
		:   connect ${id}_pb G ${id}_nb G
	</>;
}

function makeGraph(seed, gates, primaryInputs, primaryOutputs)
{
	srand(seed);

	var code = "";
	var net, vdd, vss, outputs;
	var unusedOutpus;
	for (var i = 0; i < gates; i++)
	{
		var id = fmt("G%d", idx++);
		if (rand(2) == 0)
			code ~= makeNAND(net, id);
		else
			code ~= makeNOR(net, id);

		if (i == 0) {
			vdd = net["${id}_VDD"];
			vss = net["${id}_VSS"];
		} else {
			code ~= <:>
				:   connect $vdd ${net["${id}_VDD"]}
				:   connect $vss ${net["${id}_VSS"]}
			</>;
		}

		var inIdx1 = rand((elementsof outputs) + 1);
		if (inIdx1 < elementsof outputs) {
			code ~= "  connect ${outputs[inIdx1]} ${net["${id}_A"]}\n";
			delete unusedOutpus[outputs[inIdx1]];
		} else
			push primaryInputs, net["${id}_A"];

		var inIdx2 = rand((elementsof outputs) + 1);
		if (inIdx2 < elementsof outputs) {
			code ~= "  connect ${outputs[inIdx2]} ${net["${id}_B"]}\n";
			delete unusedOutpus[outputs[inIdx2]];
		} else
			push primaryInputs, net["${id}_B"];

		unusedOutpus[net["${id}_Y"]] = 1;
		push outputs, net["${id}_Y"];
	}

	foreach netDecl (unusedOutpus)
		push primaryOutputs, netDecl;

	return code;
}

function makeConnections(fromNets, toNets)
{
	var code = "";
	foreach[] toNet (toNets) {
		var fromNet = fromNets[rand(elementsof fromNets)];
		code != "  connect $fromNet $toNet\n";
	}
	return code;
}

var numNodes;

write(<:>
	: graph nand
	<?spl var net = []; ?>
	  ${makeNAND(net, "nand")}
	:   extern ${net["nand_VDD"]}
	:   extern ${net["nand_VSS"]}
	:   extern ${net["nand_A"]}
	:   extern ${net["nand_B"]}
	:   extern ${net["nand_Y"]}
	: endgraph
	:
	: graph nor
	  ${makeNOR(net, "nor")}
	:   extern ${net["nor_VDD"]}
	:   extern ${net["nor_VSS"]}
	:   extern ${net["nor_A"]}
	:   extern ${net["nor_B"]}
	:   extern ${net["nor_Y"]}
	: endgraph
	:
	: graph needle_1
	<?spl var ports; ?>
	  ${makeGraph(1, 100, ports, ports)}
	<?spl numNodes["needle_1"] = idx*4; ?>
	<spl:foreach var="[]net" list="ports">
	:   extern $net
	</spl:foreach>
	: endgraph
	:
	: graph needle_2
	<?spl var ports; ?>
	  ${makeGraph(2, 200, ports, ports)}
	<?spl numNodes["needle_2"] = idx*4; ?>
	<spl:foreach var="[]net" list="ports">
	:   extern $net
	</spl:foreach>
	: endgraph
	:
	: graph needle_3
	<?spl var ports; ?>
	  ${makeGraph(3, 300, ports, ports)}
	<?spl numNodes["needle_3"] = idx*4; ?>
	<spl:foreach var="[]net" list="ports">
	:   extern $net
	</spl:foreach>
	: endgraph
	:
	: graph haystack

	<?spl count_nand=0; count_nor=0; ?>

	<?spl var inPorts1, outPorts1; ?>
	  ${makeGraph(1, 100, inPorts1, outPorts1)}

	<?spl var inPorts2, outPorts2; ?>
	  ${makeGraph(2, 200, inPorts2, outPorts2)}

	<?spl var inPorts3, outPorts3; ?>
	  ${makeGraph(3, 300, inPorts3, outPorts3)}

	<?spl var inPorts4, outPorts4; ?>
	  ${makeGraph(2, 200, inPorts4, outPorts4)}

	<?spl var inPorts5, outPorts5; ?>
	  ${makeGraph(1, 100, inPorts5, outPorts5)}
	<?spl numNodes["haystack"] = idx*4; ?>

	  ${makeConnections(outPorts1, inPorts2)}
	  ${makeConnections(outPorts2, inPorts3)}
	  ${makeConnections(outPorts3, inPorts4)}
	  ${makeConnections(outPorts4, inPorts5)}

	: endgraph
	:
	: solve nand haystack false
	: expect $count_nand
	: clearoverlap
	:
	: solve nor haystack false
	: expect $count_nor
	: clearoverlap
	:
	: solve needle_1 haystack false
	: expect 2
	:
	: solve needle_2 haystack false
	: expect 2
	:
	: solve needle_3 haystack false
	: expect 1
</>);

numNodes["haystack"] -= numNodes["needle_3"];
numNodes["needle_3"] -= numNodes["needle_2"];
numNodes["needle_2"] -= numNodes["needle_1"];

write(<:>
	:
	: # Needle_1: ${numNodes["needle_1"]} transistors
	: # Needle_2: ${numNodes["needle_2"]} transistors
	: # Needle_3: ${numNodes["needle_3"]} transistors
	: # Haystack: ${numNodes["haystack"]} transistors
</>);