MECH: Multi-Entry Communication Highway for Superconducting Quantum Chiplets
By Hezi Zhang1, Keyi Yin1, Anbang Wu1, Hassan Shapourian2, Alireza Shabani2, Yufei Ding1
1 University of California
2 Cisco Quantum Lab
Chiplet architecture is an emerging architecture for quantum computing that could significantly increase qubit resources with its great scalability and modularity. However, as the computing scale increases, communication between qubits would become a more severe bottleneck due to the long routing distances. In this paper, we propose a multi-entry communication highway (MECH) mechanism to trade ancillary qubits for program concurrency, and build a compilation framework to efficiently manage and utilize the highway resources. Our evaluation shows that this framework significantly outperforms the baseline approach in both the circuit depth and the number of operations on typical quantum benchmarks. This implies a more efficient and less error-prone compilation of quantum programs.
To read the full article, click here
Related Chiplet
- Direct Chiplet Interface
- HBM3e Advanced-packaging chiplet for all workloads
- UCIe AP based 8-bit 170-Gsps Chiplet Transceiver
- UCIe based 8-bit 48-Gsps Transceiver
- UCIe based 12-bit 12-Gsps Transceiver
Related Technical Papers
- Codesign of quantum error-correcting codes and modular chiplets in the presence of defects
- Deploying Chiplets into Mass Markets
- Extending network-on-chip (NoC) technology to chiplets
- Heterogeneous Integration - Chiplets
Latest Technical Papers
- Automakers And Industry Need Specific, Extremely Robust, Heterogeneously Integrated Chiplet Solutions
- Efficient ESD Verification For 2.5/3D Automotive ICs
- Heterogeneous Integration Technologies for Artificial Intelligence Applications
- Performance Implications of Multi-Chiplet Neural Processing Units on Autonomous Driving Perception
- ChipAI: A scalable chiplet-based accelerator for efficient DNN inference using silicon photonics