Photo by arcreates from unsplash
In this article, we propose a duobinary transceiver for graphics double-data-rate (GDDR) memory interfaces. The proposed voltage-mode driver complies with the GDDR impedance specifications without sacrificing the ratio of level… Click to show full abstract
In this article, we propose a duobinary transceiver for graphics double-data-rate (GDDR) memory interfaces. The proposed voltage-mode driver complies with the GDDR impedance specifications without sacrificing the ratio of level mismatch (RLM). The quarter-rate time-interleaved successive approximation duobinary receiver (Rx) reduces the forwarded clock frequency and minimizes the capacitive loading of the front-end analog equalizer (EQ). To compensate for the channel loss, the transmitter is composed of a three-tap feed-forward EQ, and the Rx employs a continuous-time linear EQ. Also, an EQ adaptation scheme applicable to duobinary signaling is proposed. The transceiver achieves a 10−12 bit error rate at 21 Gb/s with 1.42 mW/Gb.
Journal Title: IEEE Journal of Solid-State Circuits
Year Published: 2022
Link to full text (if available)
Share on Social Media: Sign Up to like & get
recommendations!