While each individual module was manageable in itself, the critical driver of success or failure lay in the clients ability to coordinate all the different teams simultaneously. Independently, teams with medical backgrounds, optical expertise, or purely software or hardware design would be unable to grasp the full extent of the problem. Next Steps, where the first phase of the project focused on completing a proof-of-concept, the next phase of the project incorporates client and market feedback, as well as an emphasis on benchmark testing. Since delivery of a successful first-generation working prototype in early 2011, Liquidware has embarked on a long-term partnership in refining and upgrading the second-generation production ready device. With the core technology implemented, and having overcome the initial developmental obstacles, Liquidware was able to provide insight on inefficiencies and propose highly specific improvements to enhance the performance and appeal of the. Medical Imaging Case Study, custom Engineering, liquidware used high performance, low power ARMs to drive a new class of portable medical imaging processing devices designed to diagnose Traumatic Brain Injuries in the field. From a design and development standpoint, Liquidware built an elegant hardware solution using. Oled display, infrared, lED, and high-speed imaging technology. Additionally, Liquidware worked with the clients in-house software teams to implement desktop-grade scientific algorithms onto a high-efficiency, ARM -based portable diagnostic unit. In later stages, Liquidware partitioned algorithms to achieve even higher performance across multiple processor cores. Results, the initial device was developed and delivered in under 12 months, and helped our client secure further private and public sector funding.
In this case, Liquidware provided Project Management services, helping to create an integrated timeline of activities across all functional areas, and for hosting regular all-hands update meetings to keep the broader team on the same page.