SK hynix présente l'efficacité énergétique, Produits de mémoire haute performance au CES 2023
Attention on energy-efficient memory chips has been on the rise as global tech companies pursue products that process data faster, while consuming less energy. SK hynix is confident that its products to be displayed at the CES 2023 will meet customers’ such needs with outstanding performance per watt and performance. The core product put forward at the show is PS1010 E3.S, an eSSD product composed of multiple 176-layer 4D NAND that supports the fifth generation of the PCIe interface.
SK hynix said that the introduction of the PS1010, a combination of the company’s industry-leading technologies, was made timely as the server chip market continues to grow despite the current industry downturn.
The PS1010 product shows improvement both in reading and writing speed by 130% et 49%, respectively, par rapport à la génération précédente. Its performance-per-watt is also improved by more than 75%, helping customers reduce costs to run servers and carbon emission.
“We’re proud to launch PS1010, an ultrahigh-performance product with self-developed controller and firmware, at the CES 2023, the world’s largest technology show,” Yun Jae Yeun, Head of NAND Product Planning, mentionné. “This product will solve pain point of our server-chip customers, while paving the way for a stronger competitiveness in NAND business for us.”
Other products to be introduced at the show are HBM3, a memory product with the world’s best specification for high performance computing, GDDR6-AiM that adopts the PIM technology and CXL memory capable of flexible expansion of memory capacity and performance.
SK hynix will also present the immersion cooling technology of SK enmove, which specializes in energy efficiency. La technologie, designed to help cool down the heat of the servers generated during the operation, marks a successful case where SK hynix cooperated with other SK companies or external business partners to create new values in the semiconductor business.