<P><SPAN lang=EN–GB style=″FONT–SIZE: 9pt; FONT–FAMILY: Tahoma″><SPAN lang=EN–US style=″COLOR: black″><FONT face=″Times New Roman″ size=3><SPAN lang=EN–GB style=″FONT–SIZE: 9pt; FONT–FAMILY: Tahoma″><SPAN lang=EN–GB style=″FONT–SIZE: 9pt; FONT–FAMILY: Tahoma″><SPAN lang=EN–US style=″COLOR: black″><FONT face=″Times New Roman″ size=3><SPAN lang=EN–GB style=″FONT–SIZE: 9pt; FONT–FAMILY: Tahoma″><SPAN lang=EN–GB style=″FONT–SIZE: 9pt; FONT–FAMILY: Tahoma″><SPAN lang=EN–US style=″COLOR: black″><FONT face=″Times New Roman″ size=3>ICFPT is an established and fast growing conference on field–programmable technologies including complex programmable logic devices and systems containing such components. Field–programmable devices combine the flexibility of software with the performance of hardware. The development and applications of field–programmable technology have become an important topic of research and development. Field–programmable systems have a wide variety of applications, such as high–performance computing systems, embedded and low–power control instruments, mobile communications, rapid prototyping and product emulation. </FONT></SPAN></SPAN></SPAN></FONT></SPAN></SPAN></SPAN></FONT></SPAN></SPAN></P> <P><SPAN lang=EN–GB style=″FONT–SIZE: 9pt; FONT–FAMILY: Tahoma″><SPAN lang=EN–US style=″COLOR: black″></SPAN></SPAN><SPAN lang=EN–GB style=″FONT–SIZE: 9pt; FONT–FAMILY: Tahoma″></SPAN><STRONG>Keywords:</STRONG></P> <P>• Applications of field–programmable technology including biomedical and scientific computation <BR>accelerators, network processors, real–time systems, rapid prototyping, hardware emulation, digital signal <BR>processing, interactive multimedia, machine vision, computer graphics, cryptography, robotics, manufacturing <BR>systems, embedded applications, evolvable and biologically–inspired hardware. <BR> <BR>• Tools and Design techniques for field–programmable technology including placement, routing, synthesis, <BR>verification, debugging, run–time support, technology mapping, partitioning, parallelization, timing <BR>optimization, design and run–time environments, languages and modeling techniques, provably–correct <BR>development, intellectual property core based design, domain–specific development, hardware/software co–<BR>design. <BR> <BR>• Architectures for field–programmable technology including field programmable gate arrays, complex <BR>programmable logic devices, field programmable interconnect, field programmable analogue arrays, field <BR>programmable arithmetic arrays, memory architectures, interface technologies, low–power techniques, adaptive <BR>devices, reconfigurable computing systems, high–performance reconfigurable systems, evolvable hardware and <BR>adaptive computing, and fault tolerance and avoidance. <BR> <BR>• Device technology for field–programmable logic including programmable memories such as non–volatile, <BR>dynamic and static memory cells and arrays, interconnect devices, circuits and switches, and emerging VLSI <BR>device technologies. </P>
Abbrevation
ICFPT
City
Taipei
Country
Taiwan
Deadline Paper
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