quantrs2_core/hardware_compilation/
superconductingoptimizer_traits.rs1use crate::{
12 error::{QuantRS2Error, QuantRS2Result},
13 gate::GateOp,
14 matrix_ops::DenseMatrix,
15 pulse::PulseSequence,
16 qubit::QubitId,
17 synthesis::decompose_two_qubit_kak,
18};
19
20use super::functions::PlatformOptimizer;
21use super::types::{
22 CompiledGate, ErrorModel, HardwareCompilationConfig, OptimizedSequence, PlatformConstraints,
23 SuperconductingOptimizer, TimingConstraints,
24};
25use std::collections::HashMap;
26use std::time::Duration;
27
28impl PlatformOptimizer for SuperconductingOptimizer {
29 fn optimize_sequence(
30 &self,
31 gates: &[CompiledGate],
32 _config: &HardwareCompilationConfig,
33 ) -> QuantRS2Result<OptimizedSequence> {
34 let optimized_gates = self.fuse_virtual_z_gates(gates)?;
35 let total_fidelity = self.estimate_fidelity(&optimized_gates);
36 let total_time = optimized_gates.iter().map(|g| g.duration).sum();
37 Ok(OptimizedSequence {
38 gates: optimized_gates,
39 total_fidelity,
40 total_time,
41 metrics: self.calculate_metrics(gates, &[], total_fidelity),
42 })
43 }
44 fn estimate_fidelity(&self, sequence: &[CompiledGate]) -> f64 {
45 sequence.iter().map(|g| g.fidelity).product()
46 }
47 fn get_constraints(&self) -> PlatformConstraints {
48 PlatformConstraints {
49 max_qubits: 1000,
50 gate_limitations: vec![],
51 timing_constraints: TimingConstraints {
52 min_gate_separation: Duration::from_nanos(10),
53 max_parallel_ops: 100,
54 qubit_timing: HashMap::new(),
55 },
56 error_model: ErrorModel {
57 single_qubit_errors: HashMap::new(),
58 two_qubit_errors: HashMap::new(),
59 readout_errors: HashMap::new(),
60 idle_decay_rates: HashMap::new(),
61 },
62 }
63 }
64}