Digital Design Engineer

New York City, NY - USA

Monthly Salary: Not Disclosed

Posted on: 10 hours ago

Vacancies: 1 Vacancy

Job Summary

Digital Design Engineer

We are building next-generation secure hardware designed to withstand the post-quantum era. Our team is developing highly efficient processing-in-memory architectures that deliver up to 10 improvements in performance per watt and per area compared to conventional designs. This is a rare opportunity to work at the intersection of cutting-edge hardware architecture cryptography and security-driven design.

As a Digital Design Engineer you will play a key role in shaping the architecture and implementation of a high-performance security-focused accelerator. Your work will directly impact silicon that is purpose-built to defend against modern and future cryptographic threats.

Key Responsibilities:

Design improve and extend RTL for a processing-in-memory accelerator from specification to integration
Contribute to chip architecture and microarchitecture with a strong focus on performance and security
Collaborate closely with software and cryptography teams to ensure hardware support for critical cryptographic workloads
Develop robust testbenches with meaningful coverage to validate functionality and reliability
Implement and own hardware-level protections against power and electromagnetic side-channel attacks
Integrate complex digital blocks into larger systems with minimal oversight

Required Qualifications:

BS MS or PhD in Electrical Engineering or a related discipline or equivalent practical experience
Strong proficiency in Verilog and/or SystemVerilog
Proficiency in C and/or C
Proficiency in Python

Preferred Qualifications:

Experience with best practices in testbench design and functional coverage
Experience with FPGA emulation
Familiarity with RISC pipelines and architectures
Background in secure hardware design including side-channel and anti-tamper countermeasures

Why You Should Join:

Work on technology that truly matters: Your designs will help secure systems against post-quantum threats an area of growing global importance
High ownership real impact: Youll take responsibility for critical blocks that directly influence silicon performance and security
Deep technical challenges: From side-channel countermeasures to processing-in-memory architectures this role offers problems few engineers get to tackle
Cross-disciplinary collaboration: Work alongside experts in cryptography software and hardware to deliver complete real-world solutions
Strong engineering culture: Join a team that values clarity of design technical rigor and thoughtful implementation
Hybrid flexibility: Collaborate in person while maintaining flexibility with a hybrid work model

Digital Design Engineer We are building next-generation secure hardware designed to withstand the post-quantum era. Our team is developing highly efficient processing-in-memory architectures that deliver up to 10 improvements in performance per watt and per area compared to conventional design...

Digital Design Engineer

Key Responsibilities:

Design improve and extend RTL for a processing-in-memory accelerator from specification to integration
Contribute to chip architecture and microarchitecture with a strong focus on performance and security
Collaborate closely with software and cryptography teams to ensure hardware support for critical cryptographic workloads
Develop robust testbenches with meaningful coverage to validate functionality and reliability
Implement and own hardware-level protections against power and electromagnetic side-channel attacks
Integrate complex digital blocks into larger systems with minimal oversight

Required Qualifications:

BS MS or PhD in Electrical Engineering or a related discipline or equivalent practical experience
Strong proficiency in Verilog and/or SystemVerilog
Proficiency in C and/or C
Proficiency in Python

Preferred Qualifications:

Experience with best practices in testbench design and functional coverage
Experience with FPGA emulation
Familiarity with RISC pipelines and architectures
Background in secure hardware design including side-channel and anti-tamper countermeasures

Why You Should Join:

Work on technology that truly matters: Your designs will help secure systems against post-quantum threats an area of growing global importance
High ownership real impact: Youll take responsibility for critical blocks that directly influence silicon performance and security
Deep technical challenges: From side-channel countermeasures to processing-in-memory architectures this role offers problems few engineers get to tackle
Cross-disciplinary collaboration: Work alongside experts in cryptography software and hardware to deliver complete real-world solutions
Strong engineering culture: Join a team that values clarity of design technical rigor and thoughtful implementation
Hybrid flexibility: Collaborate in person while maintaining flexibility with a hybrid work model