A fast quantum mechanical algorithm for database search
STOC '96 Proceedings of the twenty-eighth annual ACM symposium on Theory of computing
Fault-tolerant quantum computation with constant error
STOC '97 Proceedings of the twenty-ninth annual ACM symposium on Theory of computing
Polynomial-time quantum algorithms for Pell's equation and the principal ideal problem
STOC '02 Proceedings of the thiry-fourth annual ACM symposium on Theory of computing
Quantum computation and quantum information
Quantum computation and quantum information
The effect of communication costs in solid-state quantum computing architectures
Proceedings of the fifteenth annual ACM symposium on Parallel algorithms and architectures
Building quantum wires: the long and the short of it
Proceedings of the 30th annual international symposium on Computer architecture
Proceedings of the 32nd annual international symposium on Computer Architecture
Factorization of a 512-bit RSA modulus
EUROCRYPT'00 Proceedings of the 19th international conference on Theory and application of cryptographic techniques
Transport of quantum states and separation of ions in a dual RF ion trap
Quantum Information & Computation
The Lucent LambdaRouter: MEMS technology of the future here today
IEEE Communications Magazine
Interconnection Networks for Scalable Quantum Computers
Proceedings of the 33rd annual international symposium on Computer Architecture
Quantum Memory Hierarchies: Efficient Designs to Match Available Parallelism in Quantum Computing
Proceedings of the 33rd annual international symposium on Computer Architecture
A program transformation and architecture support for quantum uncomputation
Proceedings of the 12th international conference on Architectural support for programming languages and operating systems
Automated generation of layout and control for quantum circuits
Proceedings of the 4th international conference on Computing frontiers
Proceedings of the 34th annual international symposium on Computer architecture
High-level interconnect model for the quantum logic array architecture
ACM Journal on Emerging Technologies in Computing Systems (JETC)
Running a Quantum Circuit at the Speed of Data
ISCA '08 Proceedings of the 35th Annual International Symposium on Computer Architecture
A fault tolerant, area efficient architecture for Shor's factoring algorithm
Proceedings of the 36th annual international symposium on Computer architecture
Quantum physical synthesis: Improving physical design by netlist modifications
Microelectronics Journal
Auxiliary qubit selection: a physical synthesis technique for quantum circuits
Quantum Information Processing
Fault-tolerant quantum computation for local leakage faults
Quantum Information & Computation
Noise threshold for a fault-tolerant two-dimensional lattice architecture
Quantum Information & Computation
Integrated optical approach to trapped ion quantum computation
Quantum Information & Computation
A realizable distributed ion-trap quantum computer
HiPC'06 Proceedings of the 13th international conference on High Performance Computing
Quantum rotations: a case study in static and dynamic machine-code generation for quantum computers
Proceedings of the 40th Annual International Symposium on Computer Architecture
A blueprint for building a quantum computer
Communications of the ACM
A quantum physical design flow using ILP and graph drawing
Quantum Information Processing
Quantum circuit physical design methodology with emphasis on physical synthesis
Quantum Information Processing
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Recent experimental advances have demonstrated technologies capable of supporting scalable quantum computation. A critical next step is how to put those technologies together into a scalable, fault-tolerant system that is also feasible. We propose a Quantum Logic Array (QLA) microarchitecture that forms the foundation of such a system. The QLA focuses on the communication resources necessary to efficiently support fault-tolerant computations. We leverage the extensive groundwork in quantum error correction theory and provide analysis that shows that our system is both asymptotically and empirically fault tolerant. Specifically, we use the QLA to implement a hierarchical, array-based design and a logarithmic expense quantum-teleportation communication protocol. Our goal is to overcome the primary scalability challenges of reliability, communication, and quantum resource distribution that plague current proposals for large-scale quantum computing. Our work complements recent work by Balenseifer et al [1], which studies the software tool chain necessary to simplify development of quantum applications; here we focus on modeling a fullscale optimized microarchitecture for scalable computing.