Abstract: A system to implement a zero overhead software pipelined (SFP) loop includes a Very Long Instruction Word (VLIW) processor having an N number of execution slots. The VLIW processor executes a plurality of instructions in parallel without any limitation of an instruction buffer size. A program memory receives a Program Memory address to fetch an instruction packet. The program memory is closely coupled with the instruction buffer size to implement the zero overhead software pipelined (SFP) loop. The size of the zero overhead software pipelined (SFP) loop can exceed the instruction buffer size. A CPU control register includes a block count and an iteration count. The block count is loaded into a block counter and counts the plurality of instructions executed in the SFP loop, and the iteration count is loaded into an iteration counter and counts a number of iterations of the SFP loop based on the block count.

Abstract: An application specific processor to implement a Viterbi decode algorithm for channel decoding functions of received symbols. The Viterbi decode algorithm is at least one of a Bit Serial decode algorithm, and block based decode algorithm. The application specific processor includes a Load-Store, Logical and De-puncturing (LLD) slot that performs a Load-Store function, a Logical function, a De-puncturing function, and a Trace-back Address generation function, a Branch Metric Compute (BMU) slot that performs Radix-2 branch metric computations, Radix-4 branch metric computations, and Squared Euclidean Branch Metric computations, and an Add-Compare-Select (ACS) slot that performs Radix-2 Path metric computations, Radix-4 Path metric computations, best state computations, and a decision bit generation. The LLD slot, the BMU slot and the ACS slot perform in a software pipelined manner to enable high speed Viterbi decoding functions.

Abstract: An application specific processor to implement a Viterbi decode algorithm for channel decoding functions of received symbols. The Viterbi decode algorithm is at least one of a Bit Serial decode algorithm, and block based decode algorithm. The application specific processor includes a Load-Store, Logical and De-puncturing (LLD) slot that performs a Load-Store function, a Logical function, a De-puncturing function, and a Trace-back Address generation function, a Branch Metric Compute (BMU) slot that performs a Radix-2 branch metric computations, a Radix-4 branch metric computations, and Squared Euclidean Branch Metric computations, and an Add-Compare-Select (ACS) slot that performs a Radix-2 Path metric computations, a Radix-4 Path metric computations, a best state computations, and a decision bit generation. The LLD slot, the BMU slot and the ACS slot perform in a software pipelined manner to enable high speed Viterbi decoding functions.

Abstract: A system to implement a zero overhead software pipelined (SFP) loop includes a Very Long Instruction Word (VLIW) processor having an N number of execution slots. The VLIW processor executes a plurality of instructions in parallel without any limitation of an instruction buffer size. A program memory receives a Program Memory address to fetch an instruction packet. The program memory is closely coupled with the instruction buffer size to implement the zero overhead software pipelined (SFP) loop. The size of the zero overhead software pipelined (SFP) loop can exceed the instruction buffer size. A CPU control register includes a block count and an iteration count. The block count is loaded into a block counter and counts the plurality of instructions executed in the SFP loop, and the iteration count is loaded into an iteration counter and counts a number of iterations of the SFP loop based on the block count.