XConn Technologies (XConn) announced that it will be
displaying a Composable Memory System prototype during the 2023 OCP Global
Summit, October 17-19 in San Jose, at the OCP Open Experience Center. The
demonstration - which will include solutions from AMD, Intel, MemVerge,
Montage, SMART Modular and XConn's Apollo CXL/PCIe switch - will highlight the
benefits of a Compute Express Link (CXL) 2.0-based Composable
Memory System featuring memory expansion, pooling, and sharing for demanding
HPC and AI applications.
The XConn Apollo switch is the industry's
first and only hybrid CXL 2.0 and PCIe Gen 5 interconnect solution. On a single
256-lane SoC, the XConn switch offers the industry's lowest port-to-port
latency and lowest power consumption per port in a single chip at a low total
cost of ownership. XConn has worked closely with the CXL community
including silicon, hardware, software and system companies to develop a CXL
2.0-based solution offering memory expansion, pooling and sharing functions
aimed to solve the memory bottleneck issues in AI computing systems.
The Composable Memory System (CMS) is a
sub-project within the OCP. Its mission is to define architecture and the spec
for memory systems that are composable to meet the demand of AI computing. CMS
has adopted CXL as the underlining technology for composable memory systems and
it has since made significant progress in defining the spec. XConn is an active
contributing member of the CMS sub-project. XConn has been working with the OCP
community to develop a scalable composable memory solution, taking advantage of
the huge switching capacity of its CXL 2.0 Apollo switch.
During OCP Global Summit, XConn will
demonstrate a first-in-class composable memory system with servers powered by
AMD, Intel, the Memory eXpander Controller (MXC) for CXL from Montage Technology,
elastic memory software from MemVerge, and the high-speed CPU interconnect
(CMM) for CXL from SMART Modular Technologies.
"XConn believes in collaboration and community
efforts to advance memory and computing technologies. OCP is a great
organization and platform to make this happen," said Gerry Fan, CEO, XConn.
"With our Apollo switch, we are working with the OCP community CMS sub-project
to create a scalable composable memory system to address the critical memory
bottleneck issues faced by the current HPC and AI applications."
"CXL is critical
to accelerating the development of next-generation technologies and powering
modern workloads, such as AI and HPC," said Mahesh Wagh, senior fellow, Server
Systems Architecture, AMD. "Our collaboration with CXL ecosystem partners, like
XConn, allows us to create heterogeneous computing solutions and composable
architectures that deliver infrastructure flexibility and performance
requirements our customers demand."
"We applaud XConn's leadership in CXL
switching. Montage has been working closely with XConn in a shared vision of
building a thriving CXL
ecosystem," said Stephen Tai, President of Montage Technology.
"We remain
convinced that
CXL is imperative for future AI
computing, and see OCP as the
ideal forum to collaboratively innovate and bring this
technology to fruition. Leveraging
Montage's leading technologies in PCIe/CXL Retimer and CXL memory expander
controller, we
will continue to support XConn's pursuit and efforts to drive
the adoption of CXL."
"As next-generation AI applications evolve,
memory-centric data infrastructure must be ready to support them with the
performance, elasticity and efficiency AI apps need to mature," said Charles
Fan, CEO and co-founder, MemVerge. "As an active contributor to the OCP CMS
sub-project, MemVerge is helping to enable truly ‘endless memory.' Our
Memory Machine software, when paired with innovative CXL 2.0 interconnect
technology like the XConn Apollo switch, delivers scalable memory capacity and
bandwidth to the most demanding applications."
"SMART Modular Technologies is pleased to collaborate with
XConn on the innovation that makes advanced CXL solutions a reality," states
Andy Mills, senior director of advanced product development for SMART Modular.
"Together, we are architecting new memory solutions that deliver the
efficiency, performance and scale required by next-generation applications and
workloads for the AI era."
With 256-lanes, the XConn
Apollo switch also supports a PCIe Gen 5 only mode for AI-intensive
applications and is a key component in Open Accelerator Module (OAM),
Just-a-bunch-of-GPUs (JBOG) and Just-a-Bunch-of-Accelerators (JBOA)
environments. Available now, the XConn Apollo switch features full support for
CXL 2.0, is backwards compatible with CXL 1.1 and supports PCIe Gen 5 in hybrid
mode.