Application-driven processor designs are becoming increasingly feasible. Today, advances in field-programmable gate array (FPGA) technology are opening the doors to fast and highly-feasible hardware/software co-designed architectures. Over 100,000 FPGA logic array blocks and nearly 100 ASIC multiply-accumulate cores combine with extensible CPU cores to foster the design of configurable, application-driven hybrid processors.This thesis proposes a hardware/software co-designed architecture targeted to an FPGA. The architecture is a very-long instruction-word (VLIW) processor coupled with super-complex instruction set (SuperCISC) hardware co-processors. Results of the VLIW/SuperCISC show performance speedups over a single-issue processor of 9x...