Shelfclass |
Sortkey |
Title |
3.G |
AWSCHALOM, DAVID D |
Semiconductor Spintronics and Quantum Computation |
3.G |
BROOKS, MICHAEL |
Quantum Computing and Communications |
3.G |
DE CASTRO, LEANDRO N. |
Fundamentals of Natural Computing: Basic Concepts, Algorithms, and Applications |
3.G |
DWYER, CHRISTOPHER |
Introduction to DNA Self-Assembled Computer Design |
3.G |
ENGESSER, KURT |
Handbook of Quantum Logic and Quantum Structures: Quantum Logic |
3.G |
FEITELSON, DROR G |
Optical Computing: A Survey for Computer Scientists |
3.G |
GAUDIOT, JEAN-LUC |
Advanced Topics in Data-Flow Computing |
3.G |
HATCHER, PHILIP J |
Data-Parallel Programming on MIMD Computers |
3.G |
HILLIS, W. DANIEL |
The Connection Machine |
3.G |
LENT, BOGDAN |
Dataflow Architecture for Machine Control |
3.G |
LO, HOI-KWONG |
Introduction to Quantum Computation and Information |
3.G |
MCAULAY, ALASTAIR D |
Optical Computer Architectures: The Application of Optical Concepts to Next Generation Computers |
3.G |
MILBURN, GERALD J |
The Feynman Processor: Quantum Entanglement and the Computing Revolution |
3.G |
NIELSEN, MICHAEL A |
Quantum Computation and Quantum Information |
3.G |
OSC |
OSC 2008: Optical Supercomputing: First International Workshop, OSC 2008, Vienna, Austria, August 26, 2008, Proceedings |
3.G |
PAPADOPOULOS, GREGORY MICHAEL |
Implementation of a Genera-Purpose Dataflow Multiprocessor |
3.G |
PARTHASARATHY, K. R |
Lectures on Quantum Computation, Quantum Error Correcting Codes and Information Theory |
3.G |
PERRY, MICHAEL L. |
The Art of Immutable Architecture: Theory and Practice of Data Management in Distributed Systems |
3.G |
QCQC |
QCQC 1998: Quantum Computing and Quantum Communications: First NASA International Conference, QCQC'98, Palm Springs, California, USA, February 17-20, 1998, Selected Papers |
3.G |
SHARP, JOHN A |
Data Flow Computing: Theory and Practice |
3.G |
SIENKO, TANYA |
Molecular Computing |
3.G |
SPECTOR, LEE |
Automatic Quantum Computer Programming: A Genetic Programming Approach |
3.G |
VALIRON, BENOIT |
A Functional Programming Language for Quantum Computation with Classical Control |