| # QUANTARION-AI: FIRST LIGHT TEST SCRIPT (v1.0-ALPHA) | |
| # Hardware: 88-Node Phononic Core | Link: 2.402 GHz RF | |
| import quantarion_rf as qrf | |
| import time | |
| def initiate_first_light(): | |
| print("π INITIALIZING PIEZO-RF DRIVE...") | |
| # 1. Lock Carrier Frequency to the Topological Peak | |
| carrier_freq = 2.402e9 # 2.402 GHz | |
| qrf.set_carrier(carrier_freq) | |
| # 2. Define "Hello World" SNN Spiking Sequence | |
| # Encoded as 4-bit TPSK Phase Shifts (pi/8 intervals) | |
| hello_world_spikes = [15, 7, 0, 7, 15] | |
| print(f"π‘ SENDING TOPOLOGICAL PULSE: {hello_world_spikes}") | |
| # 3. Execution: Injecting the Spikes into the 88-Node Lattice | |
| start_time = time.perf_counter_ns() | |
| response = qrf.inject_topological_pulse(hello_world_spikes, modulation='TPSK') | |
| end_time = time.perf_counter_ns() | |
| # 4. Verification: Check T2 Coherence and Bandgap Isolation | |
| coherence = qrf.measure_coherence_time() # Target > 520us | |
| rejection = qrf.get_out_of_band_rejection() # Target > 65dB | |
| return { | |
| "latency_ns": end_time - start_time, | |
| "coherence_us": coherence * 1e6, | |
| "rejection_db": rejection, | |
| "status": "PASS" if coherence > 520e-6 and rejection > 60 else "FAIL" | |
| } | |
| # RUN THE TEST | |
| results = initiate_first_light() | |
| print(f"π TEST RESULTS: {results}") | |