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SBC: SA PHOTONICS, LLC Topic: AF18BT015
We propose a compact, monolithic, power scalable, hollow core fiber-gas laser emitting in the atmospheric transmission region in the mid-IR. The proposed optically pumped fiber-gas laser system is efficient, has a small footprint as well has a broad spectral coverage in the mid-IR. Due to the unique approach employed, the proposed technology allows generation of mid-IR output with varying pulse re ...STTR Phase I 2019 Department of DefenseAir Force
SBC: FIRST RF CORPORATION Topic: AF17BT003
FIRST RF will lead the Phase II effort and will leverage the system architecture of the MAINLINE system and integrate multifunctional SiGe integrated circuits (ICs) developed by The University of California San Diego under the supervision of Prof. Gabriel Rebeiz. The SiGe devices developed during the Phase II effort will significantly reduce the power requirements of the MAINLINE system allowing f ...STTR Phase II 2019 Department of DefenseAir Force
SBC: SECURBORATION, INC. Topic: OSD11T04
In the Phase I portion of this STTR, Securboration and renowned multicore expert Dr. Frank Mueller from North Carolina State University designed, developed, and benchmarked the proof-of-concept Pico-kernel Adaptive and Scalable Operating-system (PICASO) for many-core architectures. The Securboration Team took a scientific, experimentation-based approach to identifying and resolving shortcomings wi ...STTR Phase II 2013 Department of DefenseAir Force
SBC: SECURBORATION, INC. Topic: OSD11T03
Modern processor design is trending increasingly toward multicore architectures. This is problematic for programmers because writing a correct parallel program is known to be difficult compared to writing the equivalent sequential program. Additionally, a wide body of sequential code has already been developed that cannot exploit the power offered by these new cores because it was written in a s ...STTR Phase II 2013 Department of DefenseAir Force
SBC: SECURBORATION, INC. Topic: AF17BT004
Cyber Risk Assessments for Threatened Environments (CRATE) is a system that produces actionable, mission-level alerts when anomalous behaviors indicative of cyber-attack are discovered within deployed mission-critical cyber-systems. CRATE is particularly relevant to deployment scenarios involving third-party infrastructure, such as deployment to a Platform as a Service (PaaS) provider or other clo ...STTR Phase II 2019 Department of DefenseAir Force
High frequency (HF) direction-finding (DF) system based on an array of high-Tc superconducting quantum interference devices (SQUIDs)SBC: Out of the Fog Research LLC Topic: AF10BT40
ABSTRACT: In Phase II, we will fabricate a SQUID array antenna. We will develop cryopackaging and control electronics for these devices. We integrate the device onto a cryocooler and build a laboratory prototype. We will then have all of the building blocks to build a fieldable prototype in Phase III. BENEFIT: Military Application: Microwave Communication Systems for ISR. Commercial Application ...STTR Phase II 2013 Department of DefenseAir Force
SBC: SYMPLECTIC ENGINEERING CORP Topic: AF08T013
The objective of this project is to develop a practical finite element-based simulation of spin-pit tests of disks. The performance of disks in spin-pit tests critically depends on localized effects, such as residual stresses, dislocations, and microstructure gradients. Therefore, a two-scale modeling approach is adopted. At the global-scale, the disk is represented by means of finite elements wit ...STTR Phase II 2010 Department of DefenseAir Force
SBC: STREAMLINE NUMERICS INC Topic: AF18BT010
The objective is to develop zonal multi-physics capability for turbulent combustion simulations. The foundation of the proposed work is a novel Pareto-Efficient Combustion (PEC) framework for fidelity-adaptive combustion modeling. The PEC model utilizes a combustion submodel assignment, combining the low-cost flamelet-based models with the more expensive finite rate chemistry models where necessar ...STTR Phase I 2019 Department of DefenseAir Force
SBC: JMSI, INC Topic: AF09BT18
The need for faster highly resolved solutions coupled with the advent of General Purpose Graphics Processing Unit (GPGPU) architectures and the development of GPGPU algorithms at the University of California, Davis present an opportunity that JMSI Inc. proposes to leverage by developing algorithmic and software solutions for GPGPUs in “Innovative CFD Algorithms, Libraries & Python Frameworks for ...STTR Phase I 2010 Department of DefenseAir Force
Intelligent In-Situ Feature Detection, Extraction, Tracking and Visualization For Turbulent Flow SimulationsSBC: JMSI, INC Topic: AF08T017
The Phase II STTR project proposed herein presents a new methodology that Detect, Ex-tract, Track and Display features in a CFD solution. BENEFIT: It is projected that his work will impact the Air Force’s procurement methods through improved analysis capabilities in: 1. Aerostructures analysis 2. Weapons bay and structural acoustics analysis 4. Active flow control analysis 5. High lift syste ...STTR Phase II 2010 Department of DefenseAir Force