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TY  - BOOK
ID  - 8058209
TI  - Memory architecture exploration for programmable embedded systems
AU  - Grun, Peter
AU  - Dutt, Nikil
AU  - Nicolau, Alex
PY  - 2003
SN  - 0306480956 1402073240
PB  - Boston, Mass. Kluwer Academic
DB  - UniCat
KW  - Computer science.
KW  - Architecture, Computer.
KW  - Computers.
KW  - Computer-aided engineering.
KW  - Electrical engineering.
KW  - Electronic circuits.
KW  - Computer Science.
KW  - Theory of Computation.
KW  - Computer System Implementation.
KW  - Circuits and Systems.
KW  - Computer-Aided Engineering (CAD, CAE) and Design.
KW  - Electrical Engineering.
KW  - Semiconductor storage devices.
KW  - Programmable controllers.
KW  - Automates programmables
KW  - Mémoires à semiconducteurs
KW  - Mémoires à semiconducteurs
KW  - Computer. Automation
KW  - embedded systems
KW  - Computer architecture.
KW  - Embedded computer systems.
KW  - Systèmes enfouis (Informatique)
KW  - Ordinateurs
KW  - Architecture
KW  - EPUB-LIV-FT SPRINGER-B
KW  - Electron-tube circuits
KW  - Electric circuits
KW  - Electron tubes
KW  - Electronics
KW  - Electric engineering
KW  - Engineering
KW  - CAE
KW  - Automatic computers
KW  - Automatic data processors
KW  - Computer hardware
KW  - Computing machines (Computers)
KW  - Electronic brains
KW  - Electronic calculating-machines
KW  - Electronic computers
KW  - Hardware, Computer
KW  - Computer systems
KW  - Cybernetics
KW  - Machine theory
KW  - Calculators
KW  - Cyberspace
KW  - Architecture, Computer
KW  - Informatics
KW  - Science
KW  - Data processing
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:8058209
AB  - Memory Architecture Exploration for Programmable Embedded Systems addresses efficient exploration of alternative memory architectures, assisted by a "compiler-in-the-loop" that allows effective matching of the target application to the processor-memory architecture. This new approach for memory architecture exploration replaces the traditional black-box view of the memory system and allows for aggressive co-optimization of the programmable processor together with a customized memory system. The book concludes with a set of experiments demonstrating the utility of this exploration approach. The authors perform architecture and compiler exploration for a set of large, real-life benchmarks, uncovering promising memory configurations from different perspectives, such as cost, performance and power.
ER  -