About the opportunity At eMemory & PUFsecurity, you will have the opportunity to work closely with leading global foundries, integrated device manufacturers (IDMs), and fabless IC design companies, enabling the integration of eMemory’s proprietary memory IP and PUFsecurity’s PQC-ready hardware security solutions into next-generation semiconductor platforms for the AI era. About eMemory & PUFsecurity Based in Taiwan, eMemory Technology Inc. is the world’s largest developer and provider of embedded non-volatile memory (eNVM) technology and silicon intellectual property (IP). The company maintains close partnerships with leading global foundries, integrated device manufacturers (IDMs), and fabless IC design companies, supporting them in integrating eMemory’s proprietary IP solutions into their semiconductor platforms. eMemory’s core product portfolio includes NeoBit, NeoFuse, NeoEE, NeoMTP, NeoFlash, and NeoPUF. To date, more than 34 billion ICs worldwide have embedded eMemory’s core technologies, spanning applications across consumer electronics, industrial systems, and automotive electronics. In the field of embedded memory silicon IP, the company actively collaborates with wafer foundries to provide process-based embedded memory production technologies and related design services tailored to each foundry’s platform. In working with IC design houses, eMemory integrates its IP into various application-specific integrated circuit (ASIC) products to enable highly competitive niche solutions. PUFsecurity Corporation, a wholly owned subsidiary of eMemory, specializes in advanced hardware security solutions based on Physical Unclonable Function (PUF) technology. Building on eMemory’s decades of semiconductor IP expertise, PUFsecurity delivers silicon-proven root-of-trust solutions that enable secure device identity, key provisioning, authentication, and cryptographic protection at the hardware level. PUFsecurity’s technology leverages intrinsic silicon variations to generate unique, unclonable device identities without storing secret keys in non-volatile memory, significantly reducing vulnerability to physical and invasive attacks. Its solutions are widely adopted in IoT devices, automotive electronics, AI accelerators, networking equipment, and industrial control systems, where security, scalability, and lifecycle protection are mission-critical. In response to the emerging quantum computing era, PUFsecurity is also advancing Post-Quantum Cryptography (PQC)–ready security architectures. By combining PUF-based hardware root-of-trust with quantum-resistant cryptographic algorithms, PUFsecurity enables secure key generation, storage-free key protection, and long-term cryptographic resilience against future quantum attacks. These solutions support evolving industry standards and help customers prepare for next-generation secure silicon deployments. • Hardware-based root-of-trust IP • Secure key generation and management solutions • Anti-counterfeiting and device authentication technologies • Secure provisioning and lifecycle security services • PUF-anchored Post-Quantum Cryptography (PQC) enablement and quantum-resilient key infrastructure PUFsecurity collaborates with global semiconductor companies and system providers to embed security directly into silicon, addressing growing demands for zero-trust architectures, post-quantum readiness, and supply chain integrity across the semiconductor ecosystem. Together, eMemory and PUFsecurity provide a comprehensive portfolio spanning embedded memory IP and silicon-based security technologies — enabling customers to build highly reliable, secure, and differentiated semiconductor products for next-generation applications. For more information, please visit our websites: As an Analog Circuit Design Engineer, you have the opportunity to gain exposure in: 1. Design, verify and debug analog circuits ( Bandgap, LDO, Charge Pump… ) 2. Memory peripheral circuits for NVM IP & test chip ( Array, Decoding, Sense Amplifier,…) 3. Work on IP specification, IP/test chip design, layout optimization and corner simulation of NVM IP. 4. Memory IP Product Yield Improvement 1. Master’s degree or above in Electrical Engineering, Electronics Engineering, or a related field. 2. Experience in analog circuit design — including bandgap reference, voltage regulator, sense amplifier (SA) circuits — as well as charge pump and memory design is preferred. 3. Familiarity with HSPICE, HSIM, AFS, XA, Virtuoso, Composer, and layout design tools is preferred. 4. Strong communication and coordination skills, team-oriented mindset, and innovative thinking. 5. Candidates with solid knowledge of non-volatile memory device characteristics, process technologies, or testing are highly valued. Applicants interested in transitioning into this field and passionate about circuit design are also encouraged to apply. 6. Experience in Flash, RRAM & MRAM design is a plus. For more job opportunities, please visit our recruitment website: or contact us at