pre-prints

5. Codeword stabilized quantum codes: algorithm and structure
I. L. Chuang, A. W. Cross, G. Smith, J. A. Smolin, B. Zeng
[quant-ph/0803.3232]

4. Subsystem stabilizer codes cannot have a universal set of transversal gates for even one encoded qudit
X. Chen, H. Chung, A. W. Cross, B. Zeng, I. L. Chuang
[quant-ph/0801.2360]

3. A comparative code study for quantum fault-tolerance
A. W. Cross, D. P. DiVincenzo, B. M. Terhal
[quant-ph/0711.1556]

2. Codeword stabilized quantum codes
A. Cross, G. Smith, J. A. Smolin, B. Zeng
[quant-ph/0708.1021]

1. Transversality versus universality for additive quantum codes
B. Zeng, A. Cross, I. Chuang
[quant-ph/0706.1382]

peer-reviewed journal and conference papers

9. Local unitary versus local Clifford equivalence of stabilizer and graph states
B. Zeng, H. Chung, A. Cross, I. Chuang
Phys. Rev. A 75, 032325 (2007)
[quant-ph/0611214]

8. Sub-system fault tolerance with the Bacon-Shor code
P. Aliferis, A. Cross
Phys. Rev. Lett 98, 220502 (2007)
[quant-ph/0610063]

7. Quantum Memory Hierarchies: Efficient Designs to Match Available Parallelism in Quantum Computing
D. Thaker, T. Metodiev, A. Cross, I. Chuang, F. Chong
ISCA-33, 2006.
[quant-ph/0604070]

6. Scheduling physical operations in a quantum information processor
T. Metodiev, D. Thaker, A. Cross, F. Chong, I. Chuang
SPIE Defense and Security Symposium, 2006.
[pdf]

5. A Quantum Logic Array Microarchitecture: Scalable Quantum Data Movement and Computation
T. Metodiev, D. Thaker, A. Cross, I. Chuang, F. Chong
MICRO-38, 2005.
[quant-ph/0509051]

4. A general purpose architectural layout for arbitrary quantum computations
T. Metodi, D. Thaker, A. Cross, I. Chuang, F. Chong
SPIE Defense and Security Symposium, 2005.
[pdf]

3. A flow-map model for analyzing pseudothresholds in fault-tolerant quantum computing
K. M. Svore, A. W. Cross, I. L. Chuang, and A. V. Aho
Quantum Information and Computation 6(3) 193-212, 2006.
[quant-ph/0508176]

2. Toward a Software Architecture for Quantum Computing Design Tools
K. Svore, A. Cross, A. Aho, I. Chuang, and I. Markov
IEEE Computer, January 2006 (presented at QPL-2, 2004).
[pdf]

1. Toward a Scalable, Silicon-Based Quantum Computing Architecture
D. Copsey, M. Oskin, F. Impens, T. Metodiev, A. Cross, F.T. Chong, I. L. Chuang, and J. Kubiatowicz
Journal of Selected Topics in Quantum Electronics, 9(6) 1552-1569, 2003.
[pdf]

Workshop and other papers

4. Synthesis and Evaluation of Fault-tolerant Quantum Computer Architectures
A. W. Cross
MIT SM Thesis, January 2005.
[pdf]

3. Preliminary Results on Simulating a Scalable Fault Tolerant Ion-Trap System for Quantum Computation
T. Metodiev, A. Cross, D. Thaker, K. Brown, D. Copsey, F. Chong, and I. Chuang
In the 3rd workshop on Non-Silicon Computing (NSC) held in conjunction with the 31st Annual International Symposium on Computer Architecture (ISCA), June 2004.
[pdf]

2. A Design Overview for a Simulation Infrastructure for Exploring Quantum Architectures
D. Copsey, M. Oskin, A. Cross, T. Metodiev, F.T. Chong, I. L. Chuang, and J. Kubiatowicz
In the 2nd workshop on Non-Silicon Computing (NSC) held in conjuction with the 30th Annual International Symposium on Computer Architecture (ISCA), 2003.
[pdf]

1. Three-Dimensional Simulation of Traveling-Wave Tube Cold-Test Characteristics
Using CST MICROWAVE STUDIO
C. Chevalier, K. Herrmann, C. Kory, J. Wilson, A. Cross, and S. Santana
NASA TM-2003-212486.
[pdf]

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