Post-Quantum Cryptography (PQC) IP core
Post-Quantum Cryptography (PQC) IP cores are hardware-based solutions designed to protect semiconductor devices and SoCs against threats from quantum computers. With the rapid advancement of quantum computing, traditional encryption methods like RSA and ECC may become vulnerable. PQC IP provides quantum-resistant cryptography, ensuring that sensitive data remains secure both today and in the future.
Integrating a PQC IP core allows chip designers and semiconductor companies to future-proof their products, meeting the growing demand for secure and compliant embedded systems.
What Is a Post-Quantum Cryptography IP Core?
A Post-Quantum Cryptography IP core is a pre-designed, pre-verified hardware block that implements quantum-resistant encryption algorithms. These algorithms are specifically engineered to withstand attacks from quantum computers while maintaining high performance, low latency, and low power consumption.
Common features of PQC IP cores include:
- Quantum-Resistant Encryption Algorithms: Lattice-based, hash-based, code-based, and multivariate cryptography.
- Secure Key Generation and Management: Hardware-based generation and storage of cryptographic keys.
- Authentication and Digital Signatures: Ensures integrity and non-repudiation for sensitive communications.
- Low-Power and High-Performance Implementation: Optimized for embedded systems, SoCs, and IoT devices.
PQC IP cores are fully verified for hardware integration, making them reliable for secure SoC and ASIC designs.
Related Articles
- A Comprehensive Post-Quantum Cryptography (PQC) Solution based on Physical Unclonable Function (PUF)
- Accelerating Post-Quantum Cryptography via LLM-Driven Hardware-Software Co-Design
- eFPGA – Hidden Engine of Tomorrow’s High-Frequency Trading Systems
- Post-Quantum Cryptography: Why Open Source alone is Not Enough for Secure IP Deployment
- How to design secure SoCs Part IV: Runtime Integrity Protection
Related Products
- PUF-based Post-Quantum Cryptography (PQC) Solution
- Highly-optimized PQC implementations, capable of running PQC in under 15kb RAM
- Highly configurable HW PQC acceleration with RISC-V processor for full CPU offload
- Agile PQC Public Key Accelerator
- xQlave® PQC ML-DSA (Dilithium)
See all 24 related products in the Catalog
Related News
- PQShield unveils ultra-small PQC embedded security breakthroughs
- EnSilica cuts post-quantum cryptography (PQC) silicon area with three-in-one IP block
- PUFsecurity, a subsidiary of eMemory, Achieves NIST CAVP Certification for PQC Algorithms, Launches PUFpqc Architecture for Quantum-Resilient SoCs
- Post-Quantum Cryptography Coalition Unveils PQC Migration Roadmap
- PQSecure Partners with Menta to Demonstrate Leakage-Resistant PQC IPs on eFPGA Fabric
The Pulse
- BrainChip Unveils Radar Reference Platform to Bridge the ‘Identification Gap’ in Edge AI
- Siemens accelerates AI chip verification to trillion‑cycle scale with NVIDIA technology
- SiFive Raises $400 Million to Accelerate High-Performance RISC-V Data Center Solutions; Company Valuation Now Stands at $3.65 Billion
- Area, Pipelining, Integration: A Comparison of SHA-2 and SHA-3 for embedded Systems.
- Why Your Next Smartphone Needs Micro-Cooling
- IntoPIX Unleashes Zero‑Latency IP Video Streaming With JPEG XS, IPMX & SMPTE 2110 At NAB Show 2026
- Teaching AI Agents to Speak Hardware
- SOCAMM: Modernizing Data Center Memory with LPDDR6/5X
- OPENEDGES Advances Commercialization of LPDDR6/5X Memory Subsystem IP, Targeting Next-Generation AI and HPC Markets
- Bridging the Gap: Why eFPGA Integration is a Managed Reality, Not a Schedule Risk
- SiMa.ai Secures Strategic Investment from Micron to Scale High-Performance, Power-Efficient Physical AI
- Codasip announces strategic pivot and divestiture
- UMC Reports Sales for March 2026
- Semidynamics Secures a Strategic Investment to Advance Memory-Centric AI Inference Chips
- When a Platform Provider Becomes a Competitor: Why Arm’s Silicon Strategy Changes the Incentives