sureCore's Ultra-Low Memory Technologies Enable Designers to Create the Reality of the Metaverse

By Tiera Oliver

Associate Editor

Embedded Computing Design

July 11, 2022

News

sureCore's Ultra-Low Memory Technologies Enable Designers to Create the Reality of the Metaverse

SureCore's memory designs need up to 50% less power than standard, off-the-shelf memory for wearable, metaverse hardware.

One of the key challenge in designing metaverse hardware is building a power efficient frame buffer to drive the displays. These large memory subsystems can be anywhere from 10MByte to 100Mbyte in size and need to support very high data bandwidths and can present a power problem for developers. Not only is the dynamic power critical as the displays may need regular updates with video presenting the most power-hungry demands.

In addition, having such a large amount of active memory means high leakage currents which, at elevated temperatures, can dominate the power profile. Per the company, off-the-shelf memory designs from both foundries and the major IP vendors are most often optimized for area and performance with virtually no consideration for power consumption. This gives a flat, two-dimensional selection space which, rather appropriately for these three-dimensional augmented reality applications, is completely inadequate.

sureCore, as part of its bespoke custom memory development service, sureFIT, has delivered memory sub-system solutions optimized for the three-dimensional design space of Power, Performance and Area (PPA). In one AR customer engagement, sureCore was able to deliver in excess of 40% total power savings compared to off-the-shelf solutions.

Whilst a bespoke solution offers the opportunity to engineer the optimal solution for the target application, sureCore has a range of power-optimized, standard products that deliver  power profiles needed by these applications. These include Everon, PowerMiser, and MiniMiser. Power savings can be realized both at nominal operating voltages and, increasingly importantly, at low to near threshold voltages allowing the application designers to tailor the power profile to the performance requirements. sureCore memories offer single rail, low voltage operation thereby allowing direct logic connection and easing system level design considerations.

For more information, visit: www.sure-core.com

Tiera Oliver, Associate Editor for Embedded Computing Design, is responsible for web content edits, product news, and constructing stories. She also assists with newsletter updates as well as contributing and editing content for ECD podcasts and the ECD YouTube channel. Before working at ECD, Tiera graduated from Northern Arizona University where she received her B.S. in journalism and political science and worked as a news reporter for the university’s student led newspaper, The Lumberjack.

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