Medical Design Briefs - January 2023 - 23

comparatively easy task, and the modules
are then simply plugged onto that. As the
modules are easy to swap, applications can
be scaled and upgraded with current processor
technology even years later, which
significantly increases the ROI of expensive
medical system developments.
COM-HPC is the latest standard and has
been specifically designed to accelerate
the development of the next generation of
networked medical computers and edge
servers. The computing power, bandwidth,
and connectivity it offers is unmatched by
any other existing computer-on-module
standard. It supports all current highspeed
interfaces up to PCI Express 5.0,
Thunderbolt, and 25 Gbit Ethernet. Depending
on the application, there are
COM-HPC client modules with powerful,
integrated graphics for traditional highperformance
systems, or headless COMHPC
server modules for medical edge
server applications that can be deployed,
for example, as front-end or backend servers
in CT or MRI systems.
COM-HPC Client for Standard Medical
Designs
COM-HPC client modules are available
in three sizes: 120 × 160 mm (Size
C), 120 × 120 mm (Size B), and 120 ×
95 mm (Size A). Modules based on the
12th generation of Intel Core processors
(code-named Intel Alder Lake) are
brand new. Size A and Size C COM-HPC
modules provide several performance
enhancements and functional improvements
for medical applications. The
most impressive among them is that developers
can now use Intel's innovative
performance hybrid architecture. With
up to 16 cores/24 threads, 12th generation
Intel Core processors offer a quantum
leap in multitasking and scalability.
Optimized for highest embedded client
performance, the graphics of the LGA
processor-based modules are now up to 94
percent more powerful. The inference
performance for image classification has
also almost tripled with up to 181 percent
higher throughput.2
In addition, the modules
offer massively more bandwidth for
connecting discrete graphics processing
units (GPUs) for maximum graphics and
GPGPU-based AI performance. All other
peripherals also benefit from doubled
lane speeds, as they now feature ultra-fast
Medical Design Briefs, January 2023
With up to 20 cores and the virtualization technology from Real-Time Systems, there are massive options for
running real-time applications securely. (Credit: congatec)
PCIe 5.0 interface technology in addition
to PCIe 4.0. They support up to four independent
4k displays.
COM-HPC Server for High-Performance
Medical Server Designs
For applications
that require data
center level performance but no dediwww.medicaldesignbriefs.com
cated
graphics output, COM-HPC server
modules offer two solutions: Size E
(160 × 200 mm) and Size D (160 x 160
mm). They are the ideal basis for use in
medical backend systems that need to
process massive video and image data in
parallel, as well as in PACS servers and
other radiological and hospital infor23
The
difference between Intel Xeon D on COM-HPC server Size E and Size D lies in the number of provided RAM
sockets, which also determines the size of the modules. Up to 1 TB of RAM is supported. (Credit: congatec)
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Medical Design Briefs - January 2023

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Medical Design Briefs - January 2023 - CV1A
Medical Design Briefs - January 2023 - CV1B
Medical Design Briefs - January 2023 - Cov1
Medical Design Briefs - January 2023 - Cov2
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Medical Design Briefs - January 2023 - Cov3
Medical Design Briefs - January 2023 - Cov4
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