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At the Herbert Wertheim College Of Engineering Faculty and Staff awards luncheon held recently, Farahmandi was recognized with the honor of receiving the “Excellence Award for Assistant Professors.” Excellence Awards for Assistant Professors or is a one-time allocation in support of research. This award is conferred upon an Assistant Professor whose research performance during the year demonstrates remarkable achievement in research and other scholarly and creative activities at the highest level.


Dr. Farimah Farahmandi




Yangbin Wang Rising Star Endowed Assistant Professor Farimah Farahmandi has received an NSF CAREER award in support of her project “SAIF: Security Assurance through AI and Formal Approaches for System-on-Chips.” The project seeks to enhance the safety and security of microelectronics by creating an innovative AI-assisted security verification framework for modern complex system-on-chip (SoC) devices.

Integrated circuits are critical components in many vital electronic devices and systems, including those used in financial services, military and defense applications, healthcare systems, and business operations. Such circuits are subject to an ever-growing number of security vulnerabilities and attacks due to their complex functionality, increased interactions among numerous functional blocks, and connectivity to the internet.

Dr. Farahmandi’s SAIF framework aims to address these vulnerabilities in a number of ways. The AI-assisted framework seeks to provide high verification coverage while dramatically reducing the time required to verify the integrity of micro devices like SOCs. By taking humans out of the process and leveraging the power of AI, the SAIF framework is able to lower security verification time by orders of magnitude while providing scalability of circuit complexity. SAIF provides computer chip design and verification engineers with properties and tools to check for security vulnerabilities before fabrication and the system promises to be extremely adaptable as new attack surfaces and modalities are discovered.

This project will integrate research and educational activities by developing a modified curriculum/syllabus for high schoolers, workforce development, minority recruiting, training/workshops for K-12 and undergraduate students, and disseminating research results through publications, seminars, tutorials, and panels.


Yangbin Wang Rising Star Endowed Assistant Professor Farimah Farahmandi has received funding from the Office of Naval Research in support of her project “Optimized System Design for Assurance and Life-cycle Management (SaLEM).” The objective of the $498K project is to develop a sustainable and security-aware life-cycle management solution, called SALeM, that monitors the run-time behaviors and silicon status of microelectronic devices. The team will also develop novel designs for upgradable hardware, meaning that the design can be altered and enhanced during runtime.

SaLEM is a first-of-its-kind optimized system designed for assurance and lifecycle management. It is intended to address key sustainability and security concerns in semiconductor manufacturing while enhancing device sustainability and mitigating e-waste issues. A key feature of the SALeM system is fine-grained monitoring to enable run-time security monitoring and in-field upgrades. The monitoring is accomplished by distributed monitoring agents, essentially sensors embedded in the hardware. The monitoring agents collect and report data (e.g., aging status) from chiplets which is then transmitted to a reconfigurable fabric, an embedded FPGA (eFPGA), for further analysis. The sensors provide meticulous observability in security-critical areas, while reconfigurable hardware-based controllers offer adaptability in deploying dynamic security policies against sophisticated attacks like zero-day threats. This detailed level of data monitoring and communication will enable the recovery of systems in the field and over-the-air hardware security updates, greatly enhancing overall device security, reducing the frequency of device replacement, and enabling device reuse.

By focusing on reducing device replacement frequency, extending device lifespan, and enabling device reuse for diverse applications, SALeM aims to mitigate sustainability challenges and supply chain disruptions. The methodology shows great potential for semiconductor manufacturing, highlighting a strategy for the integration of advanced monitoring capabilities into future products.

Dr. Farahmandi’s SaLEM project continues her work in the national security space by creating trustworthy and sustainable electronics for secure and reliable hardware used in military and naval systems, the aerospace industry, financial systems, and automobile systems. Both semiconductor manufacturing companies and OEM companies stand to benefit from this research.

Silicon Design and Assurance Lab (SiLDA): A Research Incubator for Cybersecurity Testing and Assurance

Launching this month, Dr. Farahmandi’s lab, the Silicon Design and Assurance Lab (SiLDA) opened its doors for students and fellows to study and collaborate in Malachowsky Hall. This lab will serve as an incubator facilitating the development of groundbreaking, interdisciplinary work. 

Housed in the new Malachowsky Hall for Data Sciences & Information Technology, the SiLDA Lab offers the latest technology and equipment designed for testing and hardware assurance.

Our Main Research Field

Over the past decades, integrated circuits (ICs) have become ubiquitous in numerous applications ranging from high-end data centers to low-power terminals. On the other hand, the security and assurance of microelectronic systems become paramount to preserve the confidentiality, integrity, and availability of sensitive data, calling for more and more research efforts from both industry and academia. At the University of Florida, the Silicon Design and Assurance Lab (SiLDA) led by Dr. Farimah Farahmandi strives to develop cutting-edge solutions for assessing security vulnerabilities of IC designs and enhancing system resilience against the most threatening attack vectors.

Cutting Edge EquipmentOur lab (lab 3229 in UF Malachowsky Hall) is equipped with leading security inspection instruments and experts with analysis capabilities including but not limited to (i) Security bugs emulation. For timely security closure, we have the Synopsys ZEBU emulation platform. It consists of reconfigurable devices which can accommodate the logic of the most recent processors such as Apple CPUs or Nvidia GPUs. As such, the security verification can be confirmed on real silicon while being accelerated by orders of magnitude. (ii) Medical device security. The security of medical devices greatly impacts the life safety of patients. We investigate the potential effects of physical disturbance (e.g., EM emissions from smartphones) on critical devices such as heart pacemakers. (iii) Side-channel security. Side-channel attacks can non-invasively deduce security assets from the physical properties (e.g., power, electromagnetic) of a running IC. Our lab has the pre-silicon and post-silicon platforms to prototype arbitrary cryptographic implementations for both power and EM side-channel vulnerability quantification. Specifically, our lab is equipped with quite a few ChipWhisperer instances (CW305, CW Pro, etc.) and Langer EM probing instruments (e.g., RF-K 7-4 H-field probes) for power and EM side-channel security verification, respectively.(iv) Fault injection security. Fault injection attacks can effectively compromise data and system integrity during run-time. For the security assessment of such attacks, we have a Riscue laser station to enable most fine-grained bit-flips on target devices. (v) Testing and probing for security verification.

The SiLDA Lab also has the capability to identify security vulnerabilities from post-silicon (commercial-off-the-shelf) devices through testing and probing instruments. Feeding directed test vectors or directly inspecting the internals of suspected ICs using our techniques minimizes the possibility of vulnerabilities to escape.

Open House SiDA Lab: Doctoral student, Dipayan Saha, discusses Synopsis ZeBu Emulation Platform with a curious visitor. Nov. 2023

Certificate of Recognition to Dr. Farahmandi from SRC

This certificate has been awarded to Dr. Farimah Farahmandi in recognition of her outstanding contribution to the Microelectronics and Advanced Packaging Technologies (MAPT) Roadmap, released October 2023, and for providing overall leadership. Dr. Farahmandi has led the discussions regarding the security concerns of heterogenous integration in Microelectronics and Advanced Packaging Technologies (MAPT) Roadmap. This certificate has been awarded to her in recognition of her outstanding contribution to  MAPT Roadmap, and for providing overall leadership. Read the press release here. Read the press release here