$150K — $200K *
In this role, you have the opportunity to
Translate ideas and 'desirements' into feasible and deliverable system capabilities that meet or exceed our customers' requirements. As such, this role provides the opportunity to look for innovative ways to use existing technologies, apply newly emerging capabilities, and / or identify gaps that can be assigned to product engineering teams to develop.
You are responsible for
Leading Tactical Solutions Teams that pull from available product lines and partner resources to satisfy current and emerging needs of Mercury's diverse customer set. You will collaborate extensively with the TMS Chief Technologist, as well as a variety of systems engineers, program managers, product managers, and technical project managers to guide and ensure the development and delivery of highly complex systems.
You are a part of
Mercury's Trusted Mission Solutions (TMS) business unit is a leader in providing tailored, secure, trusted, scalable and composable mission solutions at the tactical edge.
To succeed in this role, you should have the following skills and experience
Candidate should have an understanding and preferably a working knowledge of the following:
· Military embedded systems with a focus on one or more of the following:
o Rack servers for Naval combat and weapons systems
o Embedded and rack servers for ARMY EW and C4ISR systems
o Embedded and rack servers for USAF EW and C4ISR systems
· Understanding of typical electro-mechanical mitigations applied for extended operational environments
o Kinetics (shock, vibration...)
o Temperature, humidity
o Noise. Air- and structure-borne
o Electromagnetic radiation, conducted & emitted "noise"
· Understanding of enterprise system architectures & why one or more strategies are more applicable vs. others:
o Bare metal systems
o Virtualized systems & applications
o Containerized applications & Microservices
o Hybrid architectures, including: CPU + Data Center GPU and/or CPU + FPGA, or combination of all three
o Storage architectures -- especially sw-defined
o HyperConverged architectures -- when & why
o Understanding of, and working knowledge of Red Hat KVM, SELinux, Virtualization Security Technologies, RHEV, OpenShift, OpenStack and Ceph are a plus
o Redundant vs. Resilient
· A MS or MA degree from an accredited college or university in Engineering, Mathematics, Physics or a related scientific discipline, with at least five (5) years of direct experience working as a systems architect, or a BS or BA degree in Engineering, Mathematics, Physics or a related discipline with a minimum of eight (8) years of direct experience as a system architect in an engineering domain.
Valid through: 7/8/2020
$200K — $250K
6 days ago
$160K — $200K + $120K—$150K bonus