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In its early stages the client required rapidly scaling their team and technical capacity in order to meet the deadlines and technical challenges of designing their optical communications system.

In its early stages the client required rapid design and scaling their technical capacity in order to meet the deadlines and technical challenges of designing their optical communications system.

The client required a scalable, privacy-focused app that combines emotional wellbeing with playful interaction. The challenge was to design a system that supports personal content and mindful gaming without the addictive loops common in standard mobile applications.

The client lacked the internal team to translate complex chemical process and mechanical control system requirements into a robust software ecosystem. The challenge involved ensuring the system remained intuitive at a lab scale while maintaining the strict reliability and traceability required for industrial environments.

Teradyne required a benchtop platform to validate and perform client demos of a new testing system concept using their prorietary ASIC. The project involved complex technical hurdles across hardware, FPGA, and software design, all under stringent deadlines.

To scale their product for higher bandwidths the client needed to replace a proprietary high performance networking stack operating at 40 Gbps with an alternatiove solution operating at 100 Gbps. They identified a software framework for this but lacked the specialized resources needed for the implementation.

Tenaris required a real-time system to measure pipe wall thickness at multiple points during manufacturing. The challenge involved building a high-speed sensor data capture and pre-processing front-ends and effcienty communications to the final processing unit, implementing complex DSP algorithms in an FPGA, and ensuring industrial-grade implementation.

The client aimed to enhance their manual betting systems with image recognition capabilities while ensuring compatibility with the existing the final client was familiar with. The challenge involved migrating legacy software from and implementing pattern detection algorithms using cameras on edge devies for standard betting forms.

Tecnet needed a versatile Remote Terminal Unit (RTU) for monitoring remote electrical utility nfrastructure variables across serial, Ethernet, and cellular channels. The challenge involved designing a multi-protocol system that supports Modbus, DNP3, and proprietary standards in a ruggedized format.

The client needed to enable multicast and high-rate streaming in the cloud and hybrid environments (on-prem + cloud) without OS or application code changes. The challenge involved designing a software system that would allow integrating 100 Gbps aggregate throughput with PTP-grade timing and packet-level observability across hybrid system deployments without custom OS or user application modifications.

In the initial incubation stages in collaboration with INVAP, Satellogic designed a Star Tracker to meet their requirements for integration, functionality, dimensions and low cost. The challenge involved designing a new-space style electronic system capable of real-time image sensor interface and blob (group lighted of pixels) pattrern pre-processing used for star identification in attitude control systems.

The client required a Remote Patient Monitoring (RPM) solution that could be used to monitor and actively engage patients if the monotred variables required it. Wireless BLE sensors were selected for patient monitoring, and the technical challenge involved designing an unobtrusive and patient-friendly monitoring system to collect patient data, implement connectivity to a backend and managamnt software system whil maintaining HIPAA compliance.

The client needed to detect assembly defects on their production lines involving manual tasks. The challenge required building an inspection system to integrate into their assembly lines which would allow low latency, high accuracy detection of manufacturing errors before the product was handed off to the next stage in the assembly line.

The client's objective was to ensure the long-term reliability of essential IP cores for power management and attitude stability on the SAC-D Aquarius satellite. The challenge involved performing an exhaustive independnt validation of flight system IP Cores before its joint CONAE/NASA Earth observation mission launch.

INVAP had a resource bottleneck to design a proof of concept for a new X-band radar system. The client selected an off-the-shelf Software Defined Radio (SDR) platform based on a Network-on-Chip (NoC) architecture to configure its functionality. This system required substantial work to adapt it for the project's use cases , including modifications to the RTL, adding new NoC components and writing new software. This implied modifying the FPGA and software layers to meet the system's functionality and performance requirements.

The client needed a strong technical team, well versed in space systems to design an Analog-Digital Input Output (ADIO) high-reliability module to integrate to the On-Board Computer (OBC) of the SABIAMAR smallsat. This module should integrate and communicate with the OBC CPU using INVAP's defined bus interfaces.

The client required high-reliability electronic modules and FPGA cores for the VIS-NIR and NIR-SWIR cameras of the SABIAMAR satellite. The challenge involved managing high-speed image acquisition and high-throughput data transfer from the payload cameras to the central platform.

INVAP needed help for the design of the FPGA cores on the data and power management of the SAOCOM satellite’s SAR (Synthetic Aperture Radar) Payload subsystems. The challenge involved the independent design and verification of multiple mission-critical FPGA coes, including the Solid State Recorder and Telemetry Formatters, while integrating into the client's unified Earth observation architecture.

The client sought to emulate complex channels and targets for the calibration of a SAR (Synthetic Aperture Radar) system. They had the high level models for this and to achieve high-precision, sub-clock period timing resolution, accurately model propagation delay, doppler effects, and polarization. They needed a team to archtect this on real hardware, implement and validate it.

The client required a secure and remote management system for the operational status of primary radar and IFF (Identification Friend or Foe) units. The challenge involved designing a high-reliability dual-board architecture to command radar operation modes under strict security protocols.

The client struggled to while integrating several sub-systems using different serial communications protocols (UART, I2C, and SPI). Together we defined they should be bridged using a stanfdard high-speed Ethernet interface. This required the design of a board to manage real-time, lossless data translation between Ethernet and multiple serial interfaces .

The client required a highly reliable and reusable CAN protocol core tailored for their demanding satellite system use case. The challenge involved implementing all protocol layers (physical to application) in pure-RTL to ensure maximum reliability and parameterization.

Hellastorm needed to accelerate network stacks for media distribution maintaining strct QoS (Quality of Service) requirements. The challenge involved sustaining low-latency communications across 40G Ethernet interfaces while offloading heavy network stack processing tasks from the CPU.

Famar required specialized digital logic to bring modern data interfaces to their white label automotive entertainment system. The challenge involved implementing a low-cost, reliable data handling core to enable new functionality to be implemented within their legacy audio units.

Emtech identified the potential for a high-precision video analysis platform capable of tracking multiple players and ball in real-time. The challenge involved overcoming occlusion and movement ambiguity through complex AI and ML (Machine Learning) architectures.

The client required a high-performance hardware platform capable of digitizing and synthesizing high-speed signals for radar and test equipment. The challenge involved managing signal integrity for ADC at 500 MSPS and DAC at 800 MSPS within a compact FMC form factor.

Digiwave required a validated framework to verify high-speed digital video and memory interfaces. The challenge involved developing a rigorous verification environment to ensure low-latency protocol correctness for their professional broadcast design.

The client needed an ISOBUS-compliant control solution for multi-seed planters, including real-time metering and control. The challenge was to ensure full compatibility between the existing planter's systems and the tractor's in-cab ISOBUS terminal.

The client required a robust radiation-monitoring device that integrates a Geiger detector with high-reliability signal conditioning and processing. The challenge involved meeting strict funcional and MAIT requirements for deployment in critical nuclear environments while ensuring seamless communication with remote servers.

The client required the validation of their proprietary high-performance interconnect designed for real-time GPU resource composition and dynamic scaling. The challenge involved ensuring absolute protocol correctness across complex switching and management logic within a high-bandwidth, low-latency environment.

Biodrone needed to detect the local presence of specific plagues to enable localized drone-based fumigation. The challenge involved selecting the most effective insect identification methods and defining a scalable architecture for real-time field deployment.

Birdlife has the mission of bird conservation and tracks bird population throughout the world, but is hampered by the limited capability of manual systems such as mobile apps or web-page reporting.

The client identified a business opportunity but lacked the internal resouurces to build a production-ready, low-power IoT platform capable of operating in remote agricultural settings with limited cellular coverage. The challenge involved integrating a diverse array of sensors and actuators into a unified system that allows for bidirectional monitoring, control and configuration at scale.

The client required a unified reliable, scalable, and cost-optimized infrastructure to manage complex EDA tool flows for a large design team working on ASIC and FPGA designs. The challenge involved automating the verification of massive digital systems while ensuring seamless synchronization across distributed computing workloads.

The client sought to increase their capacity to design and verify a complex FPGA-based communications system for direct-to-device connectivity from LEO satellites. This involved implementing and validating DSP algorithms and high-speed data communication pipelines within a highly demanding satellite communications architecture.

The client needed custom hardware and firmware for a high-end room automation system that could integrate seamlessly into their existing infrastructure. The challenge involved centralizing lighting, climate, and motorized blinds into a cohesive, industrial-grade control ecosystem for premium environments.

The client was a biotech expert but lacked the internal capacity to do electronics design. They needed the design and validation of a complex, multi-domain electronic system requiring precise environmental control through integrated hardware and software for the cultivation of Hematopoietic Stem Cells.

The client struggled with configuration and system managment for their high-reliability hardware system, which was designed to implement real-time precision guidance algorithms for mining equipment.