RW’s sister publication TV Technology reports this item of interest: In analog communications, error correction depends on the ability of humans “decoding” the ...

Reed–Solomon codes have long been celebrated for their robust error-correction capabilities in digital communications and data storage. Decoding algorithms for these codes continue to evolve, aiming ...

test and verify the Reed-Solomon codec. Each of these steps is important, and missing one results in developing hardware that does not work the first time and must be re-created. For example, it is ...

Dynamic scheduling and decoding algorithms have become pivotal in advancing the performance of error-correcting codes. Recent innovations have focused on refining Low-Density Parity-Check (LDPC) codes ...

A technical paper titled “Unraveling codes: fast, robust, beyond-bound error correction for DRAM” was published by researchers at Rambus.

The ST72681 bi-core, USB 2.0 flash-drive controller employs an ST7 8-bit microcontroller architecture in tandem with a 16-bit, one-cycle-per-instruction I/O processor, and a Reed-Solomon ...

Backblaze has open-sourced a key component of its Backblaze Vault file system design: The Reed-Solomon implementation (done, in this case, in Java). Share on Facebook (opens in a new window) Share on ...

In high-reliability aerospace, avionics, and military applications, single error correction (SEC) and double error detection (DED) may not provide adequate protection ...