At Twin Oaks Consulting, we specialize in providing innovative solutions for engineering projects of all sizes. Our team of skilled Engineers, Software and Embedded Developers have a wealth of experience and expertise, who are committed to delivering the highest quality results for our clients.
Contact us today to see how we can help you achieve your project goals.
In support of signal acquisition and
processing of narrow and wide-band applications. Algorithms to aid
processing of the physical layer and internals of signal of interest,
providing solutions and systems for managing and manipulating streams of
data requiring high precision and timing accuracy.
Utilize software development techniques to analyze and solve
complex problems, creating multi-platform software products using
software engineering and OOD programming techniques
Research, development, and vulnerability analysis
of hardware and software systems on a variety of embedded targets.
Delivering solutions to increase compute power for
existing and future RF and wireless applications. Designing and developing
systems with high-throughput packet processing and low latency to help
data management and effective buffering to maximize hardware
performance to ensure real time processing requirements are met.
Certified Professionals with proven
project execution success supporting complex mission tasks, goals, and
requirements of many customers in different programs.
Experts in spectrum surveying and link budget analysis, calibration of
receive and transmit paths in support of active and passive applications.
Developed, and integrated applications on customize servers and multiple SDR platforms in support of tactical and control environment missions.
Our real‑time processing software leverages NVIDIA CUDA parallel computing architecture and libraries to accelerate performance across complex workloads. By harnessing thousands of GPU cores, we enable:
• Low‑latency data pipelines for mission‑critical applications such as sensor fusion, image recognition, and signal processing.
• Deterministic execution with optimized memory management and thread scheduling, ensuring predictable response times.
Our FPGA solutions combine hardware‑level parallelism with CUDA‑accelerated software stacks to deliver flexible, high‑performance computing. Key capabilities include:
• Customizable hardware pipelines for specialized algorithms, tightly integrated with CUDA kernels for hybrid acceleration.
• Ultra‑low power consumption and deterministic performance, ideal for embedded and edge deployments.
• Seamless interoperability between FPGA logic and GPU compute, enabling heterogeneous architectures that maximize efficiency.
By bridging FPGA configurability with CUDA’s massive parallelism, we deliver tailored solutions for domains such as real‑time analytics, cryptography, and advanced signal processing.
We provide end‑to‑end integration and validation services that ensure seamless interoperability across diverse computing and communications environments. Our capabilities include:
• High‑Performance Servers: Leveraging multi‑core CPUs and GPU acceleration to support compute‑intensive workloads, large‑scale simulations, and real‑time analytics.
• Custom Embedded Platforms: Tailoring firmware and middleware to optimize performance, power efficiency, and reliability for mission‑critical applications.
• Software‑Defined Radios (SDRs): Integrating advanced RF front‑ends with flexible, reconfigurable signal processing pipelines to enable rapid prototyping, spectrum agility, and secure communications.
We deliver advanced cyber security support and exploitation solutions designed to identify, analyze, and mitigate risks across complex hardware and software ecosystems. Our expertise includes:
• Reverse Engineering: Disassembling and analyzing binaries, firmware, and proprietary protocols to uncover hidden functionality, undocumented features, and potential attack vectors.
• Vulnerability Analysis: Systematic evaluation of hardware and software components to detect weaknesses in architectures, operating systems, and embedded platforms.
• Complex Systems Assessment: Applying multi‑layered methodologies to evaluate integrated systems, including high‑performance servers, custom embedded platforms, and software‑defined radios, ensuring resilience against sophisticated threats.
• Exploit Development and Testing: Controlled exploitation of identified vulnerabilities to validate risk exposure, quantify potential impacts, and support remediation strategies.
By combining deep technical analysis with operationally focused testing, we provide actionable intelligence that strengthens defensive postures while enabling informed decision‑making in contested cyber environments.
Our team provides advanced support for open‑source development frameworks, leveraging deep expertise in SCA, REDHAWK, and OpenCPI to deliver innovative, mission‑ready solutions.
• Software Communications Architecture (SCA): Applying modular, standards‑based design principles to ensure interoperability, scalability, and rapid deployment of software‑defined systems.
• REDHAWK Framework: Harnessing its dynamic signal processing capabilities to build and integrate complex radio frequency (RF) applications with real‑time adaptability.
• OpenCPI Framework: Utilizing heterogeneous computing support to accelerate performance across CPUs, GPUs, and FPGAs, enabling efficient hardware/software co‑design.
By combining our knowledge of these frameworks with a culture of innovation and system‑level integration, we empower organizations to maximize flexibility, reduce development cycles, and achieve robust performance across diverse mission environments
Files coming soon.