Hardware-software co-design of embedded systems: the POLIS approach
Hardware-software co-design of embedded systems: the POLIS approach
Reuse methodology manual: for system-on-a-chip designs
Reuse methodology manual: for system-on-a-chip designs
Object oriented Perl
Surviving the SOC revolution: a guide to platform-based design
Surviving the SOC revolution: a guide to platform-based design
System-on-a-Chip: Design and Test
System-on-a-Chip: Design and Test
Embedded Multiprocessors: Scheduling and Synchronization
Embedded Multiprocessors: Scheduling and Synchronization
Digital Signal Processing with Field Programmable Gate Arrays with Cdrom
Digital Signal Processing with Field Programmable Gate Arrays with Cdrom
JHDL - An HDL for Reconfigurable Systems
FCCM '98 Proceedings of the IEEE Symposium on FPGAs for Custom Computing Machines
5.2: EP3: An Extensible Perl PreProcessor
IVC-VIUF '98 Proceedings of the International Verilog HDL Conference and VHDL International Users Forum
EURASIP Journal on Applied Signal Processing
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We introduce the Logic Foundry, a system for the rapid creation and integration of FPGA-based digital signal processing systems. Recognizing that some of the greatest challenges in creating FPGA-based systems occur in the integration of the various components, we have proposed a system that targets the following four areas of integration: design flow integration, component integration, platform integration, and software integration. Using the Logic Foundry, a system can be easily specified, and then automatically constructed and integrated with system level software.