Next-Generation Processor Architecture

Next-Generation Processor Architecture

Transforming data center economics by taking maximum advantage of the multi-thread capabilities of the new generation of processors suitable for concurrent computing

Demand for Data and Applications

Addressable Market

Insatiable demand for data and applications in all aspects of daily life is leading to massive growth in data center footprints globally and their significant environmental impacts.

Enhanced Throughput

F1R3FLY concurrent computing technology significantly increases the throughput of chipsets and therefore potentially entire data centers

Environmental Impact

This changes the paradigms of data center sizing, footprint, and their energy usage

Next Gen Solutions

Technology

F1R3FLY's technology represents revolutionary intellectual property with potential to transform the computing hardware industry.

Next-Gen Processor Management

Development path to F1R3FLY directly managing new generation processors

Embedded Computing Architecture

Multi-threaded processors embedded in memory and cache

Instruction Set Optimization

Alignment of core architecture with processor instruction set

Performance Acceleration

Designed for highly enhanced throughput potential

Data Center Innovation

Revolutionary approach to data center technical architecture

Revolutionizing Computational Power

F1R3FLY Powers Next-Generation Computing

F1R3FLY's architecture allows developers to create applications that take advantage of concurrency on new generation chipsets to significantly increase their throughput. F1R3FLY's approach to optimizing concurrency in the use of new multi-core processors embedded with memory and cache takes full advantage of this architecture.

New generation chipsets have introduced a new architecture in which processor cores are embedded within memory and cache for maximum efficiency. F1R3FLY technology adds to this the ability to run large numbers of computational threads in each core concurrently, greatly increasing the processor's throughput.

Business Potential

  • Compared with today's standard data center architecture, a data center that has been reconfigured with new generation chipsets and F1R3FLY concurrent computing will have significant available processing potential that can be sold by the data center organization to the market, a significant cost/revenue benefit to the data center's owners

Market Advantage

  • F1R3FLY's approach to optimizing concurrency in the use of new multi-core processors embedded with memory and cache takes full advantage of this architecture
  • F1R3FLY is currently implemented in a Rust layer immediately above the processor instruction set but will soon be able to form the instruction set itself

Market Opportunities

  • New generation chipsets have introduced a new architecture in which processor cores are embedded within memory and cache for maximum efficiency
  • F1R3FLY technology adds to this the ability to run large numbers of computational threads in each core concurrently, greatly increasing the processor's throughput

Platform Synergies

  • F1R3FLYenables applications designed for concurrency to take maximum advantage of next generation chipsets, dramatically increasing their throughput
  • This correlates with the physical data center footprint and their environmental impact

Next Steps

Our founding team is available to discuss your specific questions and explore how our strategic efforts can accelerate F1R3FLY's path to market leadership in enterprise computing.