The company “expects series production of OEM designs based on these new modules to ramp up quickly as the new processors with long life availability offer improvements in many features, yet are hardware compatible to the predecessors”, it said.
According to Congatec, up to 8% single-thread and up to 5% multi-thread performance gains are estimated compared to 12th Gen Intel Core processors (i7-13800HE compared to i7-12800HE with SPECrate2017_int_base), but there are no i7 Cores in the list provided below).
Base power is around 15 – 45W (see table), and DDR5 memory support, Thunderbolt and PCIe Gen5 are available on some of the parts.
“The COM Express 3.1 compliant modules primarily help to secure investments in existing OEM designs, which includes upgrade options for more data throughput thanks to PCIe Gen4 support,” said the company.
Graphics are Intel Iris Xe
“The numerous improvements of the 13th Gen Intel Core processors help to make these computer-on-modules really outstanding,” said Congatec product manager Jürgen Jungbauer. “They give industry the opportunity to instantly upgrade existing high-end embedded and edge computing solutions.
“Application engineers can deploy the new COM-HPC computer-on-modules on Congatec’s Micro-ATX application carrier board conga-HPC/uATX for COM-HPC Client type modules,” said the company.
conga-HPC/cRLP Computer-on-Module in COM-HPC Size A
conga-TC675 Computer-on-Module in COM Express Compact Type 6
Variants:
| Processor | Cores (P + E) |
Max turbo P/E cores |
Base freq P/E cores |
Threads | GPU execution units |
CPU base power |
| Intel Core i5-1340PE | 12 (4+8) | 4.5 /3.3GHz | 1.8 / 1.3GHz | 16 | 80 | 28W |
| Intel Core i5-1335UE | 10 (2+8) | 4.5 / 3.3 | 1.3 / 1.1 | 12 | 80 | 15 |
| Intel Core i3-13300HE | 8 (4+4) | 4.6 / 3.4 | 2.1 / 1.5 | 12 | 48 | 45 |
| Intel Core i3-1320PE | 8 (4+4) | 4.5 / 3.3 | 1.7 / 1.2 | 12 | 48 | 28 |
| Intel Core i3-1315UE | 6 (2+4) | 4.5 / 3.3 | 1.2 / 0.9 | 8 | 64 | 15 |
| Intel Pentium U300E | 5 (1+4) | 4.3 / 3.2 | 1.1 / 0.9 | 6 | 48 | 15 |
P = performance cores, E = efficiency cores
