import net.mograsim.logic.core.types.Bit;
import net.mograsim.logic.core.types.BitVector;
import net.mograsim.logic.model.am2900.machine.registers.Am2900Register;
import net.mograsim.logic.core.types.Bit;
import net.mograsim.logic.core.types.BitVector;
import net.mograsim.logic.model.am2900.machine.registers.Am2900Register;
import net.mograsim.logic.model.model.LogicModel;
import net.mograsim.logic.model.model.LogicModelModifiable;
import net.mograsim.logic.model.model.components.ModelComponent;
import net.mograsim.logic.model.model.LogicModel;
import net.mograsim.logic.model.model.LogicModelModifiable;
import net.mograsim.logic.model.model.components.ModelComponent;
import net.mograsim.logic.model.serializing.IndirectModelComponentCreator;
import net.mograsim.machine.Machine;
import net.mograsim.machine.MachineDefinition;
import net.mograsim.logic.model.serializing.IndirectModelComponentCreator;
import net.mograsim.machine.Machine;
import net.mograsim.machine.MachineDefinition;
import net.mograsim.machine.mi.AssignableMicroInstructionMemory;
import net.mograsim.machine.mi.MicroInstruction;
import net.mograsim.machine.mi.MicroInstructionDefinition;
import net.mograsim.machine.mi.AssignableMicroInstructionMemory;
import net.mograsim.machine.mi.MicroInstruction;
import net.mograsim.machine.mi.MicroInstructionDefinition;
import net.mograsim.machine.mi.StandardMicroInstructionMemory;
import net.mograsim.machine.mi.parameters.MicroInstructionParameter;
import net.mograsim.machine.mi.parameters.ParameterClassification;
import net.mograsim.machine.mi.StandardMicroInstructionMemory;
import net.mograsim.machine.mi.parameters.MicroInstructionParameter;
import net.mograsim.machine.mi.parameters.ParameterClassification;
private Timeline timeline;
private AssignableMainMemory mainMemory;
private AssignableMicroInstructionMemory instMemory;
private Timeline timeline;
private AssignableMainMemory mainMemory;
private AssignableMicroInstructionMemory instMemory;
params.wireTravelTime = 10;
mainMemory = new AssignableMainMemory(new WordAddressableMemory(am2900MachineDefinition.getMainMemoryDefinition()));
instMemory = new AssignableMicroInstructionMemory(
new StandardMicroInstructionMemory(am2900MachineDefinition.getMicroInstructionMemoryDefinition()));
params.wireTravelTime = 10;
mainMemory = new AssignableMainMemory(new WordAddressableMemory(am2900MachineDefinition.getMainMemoryDefinition()));
instMemory = new AssignableMicroInstructionMemory(
new StandardMicroInstructionMemory(am2900MachineDefinition.getMicroInstructionMemoryDefinition()));
timeline = LogicCoreAdapter.convert(logicModel, params);
am2900.setHighLevelState("ram.memory_binding", mainMemory);
am2900.setHighLevelState("mpm.memory_binding", instMemory);
timeline = LogicCoreAdapter.convert(logicModel, params);
am2900.setHighLevelState("ram.memory_binding", mainMemory);
am2900.setHighLevelState("mpm.memory_binding", instMemory);
clock = logicModel.getComponentBySubmodelPath("Am2900.Clock#0", ModelClock.class).getClock();
clock.registerObserver(c ->
{
clock = logicModel.getComponentBySubmodelPath("Am2900.Clock#0", ModelClock.class).getClock();
clock.registerObserver(c ->
{
defaultParams[19] = paramClassifications[19].parse("JZ");
MicroInstruction jzMI = MicroInstruction.create(defaultParams);
am2900.setHighLevelState("muir_2.q", jzMI.toBitVector());
defaultParams[19] = paramClassifications[19].parse("JZ");
MicroInstruction jzMI = MicroInstruction.create(defaultParams);
am2900.setHighLevelState("muir_2.q", jzMI.toBitVector());
- if (!machineDefinition.strict)
- {
- setRegistersToZero(machineDefinition.getUnsortedRegisters());
- setRegisterGroupToZero(machineDefinition.getRegisterGroups());
- // TODO reset latches?
- }
+ Bit regsValue = machineDefinition.expert ? Bit.U : Bit.ZERO;
+ setRegistersTo(machineDefinition.getUnsortedRegisters(), regsValue);
+ setRegisterGroupTo(machineDefinition.getRegisterGroups(), regsValue);
+ // TODO reset latches?
- setRegister(r, BitVector.of(Bit.ZERO, r.getWidth()));
+ if (r != muInstrRegister.instance)// don't reset; sometimes causes a glitch
+ setRegister(r, BitVector.of(value, r.getWidth()));
- setRegistersToZero(rg.getRegisters());
- setRegisterGroupToZero(rg.getSubGroups());
+ setRegistersTo(rg.getRegisters(), value);
+ setRegisterGroupTo(rg.getSubGroups(), value);