CYE's DFIR team is responsible for responding to our clients' cyber incidents and crises.
Our group is expanding. If you see yourself in the front line of the cybersecurity domain as a digital forensic and incident response (DFIR) talent, your place is with us. As a DFIR team member, you will participate in hands-on security research and investigations, helping our customers understand and mitigate cyber threats and attacks.
Responsibilities
- Perform incident response lifecycle and real-time activities, including detection and analysis, containment and eradication, and recovery
- Perform incident response in a cloud environment (Azure, AWS etc.).
- Perform digital forensics investigations
- Research and analyze tactics, techniques, and procedures (TTPs) used by malicious actors
- Perform hunt-evil and find-evil activities for proactively detecting attacks
- Work closely with our in-house red team, CTI, and cyber architect teams
- Work closely with worldwide companies, CISOs, and technology experts
Qualifications
- Must be based in the Central or Eastern regions of the US
- 1-2 years of experience as a DFIR team member
- Experience with performing digital forensics in a cloud environment
- Experience with performing digital forensics of Windows-based and/or Linux-based platforms, network forensics, and analysis
- Thorough understanding of threat hunting models, as well as cyber threat intelligence, including TTP and IoCs extraction and mapping
- Experience with research and data analysis of large DBs via Splunk, Elasticsearch, SQL, or VQL
- Strong understanding of targeted attacks; able to create customized tactical remediation plans
- Good written and verbal English communication skills
About us
Cye helps security and risk leaders gain a clear, defensible view of their cyber exposure, grounded in financial impact and real-world attack paths. By continuously quantifying exposure and validating it in context, organizations can establish a strong baseline, prioritize decisions with confidence, and track measurable reduction over time.