Abstract
Error correction codes (ECCs) are commonly used in computer systems to protect information from errors. For example, single error correction (SEC) codes are frequently used for memory protection. Due to continuous technology scaling, soft errors on registers have become a major concern, and ECCs are required to protect them. Nevertheless, using an ECC increases delay, area and power consumption. In this way, ECCs are traditionally designed focusing on minimizing the number of redundant bits added. This is important in memories, as these bits are added to each word in the whole memory. However, this fact is less important in registers, where minimizing the encoding and decoding delay can be more interesting. This paper proposes a method to develop codes with 1-gate delay encoders and 4-gate delay decoders, independently of the word length. These codes have been designed to correct single errors only in data bits to reduce the overhead.
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