By utilizing the embedded XtremeDSPTM blocks, our PCI DSP Acceleration solutions deliver substantially more signal processing power than competing products using DSP chips. By pairing the XtreamDSPTM blocks with the embedded block RAMS, our PCI DSP Acceleration cards solve demanding problems such as asynchronous resampling filters, polyphase filters, adaptive filters and FFTs. The incredible amount of bandwidth available between the XtreamDSPTM blocks and the block RAMs enables the FPGA to solve DSP problems that would be bandwidth limited on DSP chips.
Our flexible design environment allows you create pipelines of DSP blocks that are closely matched to your requirements. By wrapping DMA engines around pipelines of DSP blocks, you create custom DSP processors that can be dedicated to one task, or shared between many. You can have numerous small DSP processors for maximum flexibility, or you can build deep DSP pipelines.
By utilizing the embedded XtremeDSPTM blocks, our PCI DSP Acceleration solutions deliver substantially more signal processing power than competing products using DSP chips. By pairing the XtreamDSPTM blocks with the embedded block RAMS, our PCI DSP Acceleration cards solve demanding problems such as asynchronous resampling filters, polyphase filters, adaptive filters and FFTs. The incredible amount of bandwidth available between the XtreamDSPTM blocks and the block RAMs enables the FPGA to solve DSP problems that would be bandwidth limited on DSP chips.
Our flexible design environment allows you create pipelines of DSP blocks that are closely matched to your requirements. By wrapping DMA engines around pipelines of DSP blocks, you create custom DSP processors that can be dedicated to one task, or shared between many. You can have numerous small DSP processors for maximum flexibility, or you can build deep DSP pipelines.