Hisilicon
Hisilicon is a fabless semiconductor company that designs system-on-chips (SoCs) and related integrated circuits used across communications, computing, and multimedia hardware ecosystems.
- Develops system-on-chips and ASICs for communications, computing, and consumer electronics
- Provides multimedia processing and imaging signal processing chipsets
- Offers baseband and RF chip solutions for wired and wireless connectivity domains
- Delivers hardware platforms that support cloud, edge, and device-level computing scenarios
- Focuses on high-integration SoC architectures for carrier, enterprise, and device Original Equipment Manufacturer (OEM) partners
More About Hisilicon
Hisilicon operates as a semiconductor design house focused on system-on-chip (SoC) and Application-Specific Integrated Circuit (ASIC) devices used by equipment manufacturers across telecom, enterprise, and consumer device markets. Its portfolio targets network infrastructure, video and imaging systems, and heterogeneous computing workloads, positioning the company within categories such as communications silicon, multimedia processing silicon, and embedded compute platforms.
In enterprise and carrier environments, Hisilicon chipsets are used as core components in network equipment, including routers, switches, optical transmission systems, and access devices (network infrastructure silicon). These SoCs typically integrate high-speed interfaces, packet processing engines, security acceleration blocks, and timing subsystems, enabling OEMs to build carrier-grade and data center-oriented hardware. Support for standard protocols, such as Ethernet, IP, and various telecom transport and access standards, underpins their use in multi-vendor network architectures.
Hisilicon also designs multimedia and imaging SoCs (media processing silicon) that combine Central Processing Unit (CPU) cores, Graphics Processing Unit (GPU) or graphics subsystems, video codecs, and image signal processors. These devices are used in products such as cameras, video surveillance systems, displays, and consumer multimedia terminals. Typical capabilities include hardware encoding and decoding across common video compression standards, image enhancement pipelines, and integration with sensor interfaces. This positions Hisilicon within surveillance and video infrastructure categories where hardware-accelerated codecs and real-time processing are critical.
For edge and device-level computing, Hisilicon SoCs (embedded compute platforms) integrate general-purpose processing clusters, connectivity interfaces, and dedicated accelerators to support workloads such as real-time control, lightweight analytics, and multimedia rendering. These platforms are oriented toward OEMs that require integrated compute and connectivity on a single chip to simplify board design, reduce power consumption, and standardize software stacks around common architectures.
Hisilicon’s RF and baseband components (connectivity silicon) support wired and wireless communications, enabling equipment manufacturers to build products that interface with broadband access networks and various radio technologies. These devices typically include PHY and Monitoring-as-Code (MaC) functionality, signal conditioning, and integration with digital processing cores, and are designed to operate within standard telecom and networking frameworks.
From a directory taxonomy perspective, Hisilicon aligns with multiple enterprise IT and infrastructure categories: network infrastructure silicon for carrier and data center equipment, media and imaging SoCs for video and surveillance systems, embedded compute platforms for edge devices and specialized terminals, and connectivity silicon for broadband and wireless access equipment. Its role is to supply OEMs and solution providers with highly integrated semiconductor platforms that underpin a broad range of communication and computing products.