Isaac Chuang - Citegraph

Author Info

Name	Affiliation	Papers
ISAAC CHUANG	MIT Center for Bits and Atoms & Department of Physics, Massachusetts Institute of Technology, MA, Cambridge, 02139, USA	31
Collaborators	Citations	PageRank
65	299	34.02
Referers	Referees	References
682	362	179

Search Limit

100682

Publications (31 rows)

Collaborators (65 rows)

Referers (100 rows)

Referees (100 rows)

Title	Citations	PageRank	Year
Recurrent Neural Networks in the Eye of Differential Equations.	1	0.36	2019
Learnability for the Information Bottleneck.	0	0.34	2019
Operating Characteristics for Binary Hypothesis Testing in Quantum Systems	0	0.34	2019
High Performance Quantum Modular Multipliers.	1	0.36	2018
Modelling And Using Response Times In Online Courses	0	0.34	2018
Meta-learning autoencoders for few-shot prediction.	1	0.36	2018
Google BigQuery for Education: Framework for Parsing and Analyzing edX MOOC Data.	0	0.34	2017
Learning With Confident Examples: Rank Pruning For Robust Classification With Noisy Labels	5	0.40	2017
Technologies for trapped-ion quantum information systems	1	0.38	2016
Probabilistic Use Cases: Discovering Behavioral Patterns for Predicting Certification	3	0.43	2015
Detecting and Preventing "Multiple-Account" Cheating in Massive Open Online Courses	12	1.35	2015
Privacy, anonymity, and big data in the social sciences	10	0.66	2014
Due dates in MOOCs: does stricter mean better?	5	1.18	2014
Quantum Inference on Bayesian Networks.	8	0.82	2014
Who does what in a massive open online course?	61	6.87	2014
Analysis of Video Use in edX Courses.	3	0.62	2013
Towards Real-Time Analytics in MOOCs.	4	0.76	2013
High-level interconnect model for the quantum logic array architecture	3	0.51	2008
Design-space exploration of fault-tolerant building blocks for large-scale quantum computing	0	0.34	2007
The quantum Schur and Clebsch-Gordan transforms: I. efficient qudit circuits	5	0.50	2007
Quantum Memory Hierarchies: Efficient Designs to Match Available Parallelism in Quantum Computing	25	1.36	2006
A Layered Software Architecture for Quantum Computing Design Tools	40	2.73	2006
A flow-map model for analyzing pseudothresholds in fault-tolerant quantum computing	8	0.91	2006
Recursive TMR: Scaling Fault Tolerance in the Nanoscale Era	9	0.65	2005
NMR Quantum Information Processing	5	0.86	2004
Datapath and control for quantum wires	5	0.67	2004
Building quantum wires: the long and the short of it	22	2.21	2003
The effect of communication costs in solid-state quantum computing architectures	11	1.43	2003
A Practical Architecture for Reliable Quantum Computers	40	3.04	2002
NMR quantum computing: lessons for the future	1	0.36	2001
Toward Quantum Computation: A Five-Qubit Quantum Processor	10	2.53	2001