IoT Processor IP
Filter
Compare
271
IP
from
33
vendors
(1
-
10)
-
64-bit RISC-V core with in-order single issue pipeline. Tiny Linux-capable processor for IoT applications.
- 64-bit RISC-V core with in-order single issue pipeline based complex.
- Tiny Linux-capable processor optimized for low power and small area.
- Ideally fits IoT applications requiring Linux.
-
Image signal processor to advance vision systems for IoT and embedded markets
- Multi-sensor interface with up to 20-bit linear video input
- Up to 8 independent camera sources of max resolution 48 Megapixels / 8K (8192 x 6144)
-
Compact Embedded RISC-V Processor
- The BA5x-CM is a feature-rich 32-bit deeply embedded processor.
- Equipped with a floating-point unit and an instruction cache memory and supporting concurrent execution in a multiprocessor environment, it is well-suited to a wide range of edge IoT and similar applications.
-
Custom RISC-V Processor
- Traditional processors no longer strike the right balance between high performance, energy consumption, and cost.
- Keysom processors deliver powerful capabilities, optimizing IoT and AI workflows with energy-efficient, small-footprint solutions.
-
ARC EM6 32-bit processor core with cache for embedded applications
- Very small size - 0.01mm2 (28 HPM)
- 1.81 DMIPS/MHz performance, 4.18 CoreMarks/MHz
- Up to 240 interrupts with 16 levels
- 512B - 2MB instruction closely coupled memory (ICCM)
-
ARC EM4 32-bit processor core, ARC V2 ISA, for embedded applications
- Very small size - 0.01mm2 (28 HPM)
- 1.81 DMIPS/MHz performance, 4.18 CoreMarks/MHz
- Up to 240 interrupts with 16 levels
- 512B - 2MB instruction closely coupled memory (ICCM)
-
ARC-V RMX-500 Processor IP
- Family of 32-bit processors for low-power embedded applications
- Based on the RISC-V ISA, leveraging standard 32-bit protocols (and extensions)
- RISC and RISC + DSP 32-bit processors for low-power embedded applications (RMX-500D)
- DSP instruction extensions (RMX-500D)
-
ARC IoT Communications IP Subsystem
- Integrated, pre-verified hardware and software IP subsystem
- ARC EM11D processor with DSP extensions delivers extremely low gate count and highly efficient processing performance
- Hardware accelerators for key communications functions such as Viterbi decoding dramatically reduce cycle counts and energy consumption
- Integrated peripherals provide a wide range of SoC connectivity options for SoC/MCUs
-
Centralised Real Time Processor IP Core
- CryptOne programmed algorithms:
- Constant time modular exponentiation
- Constant time, parallel modular exponentiation CRT
- Constant time ECDSA sign/verify
