![CSfC Series: Data-at-Rest Capability Package 4.8 CSfC Series: Data-at-Rest Capability Package 4.8](/sites/default/files/styles/cards_listing_mobile/public/2021-12/si-fifty-cyber_security.png?itok=Q2miWGhT)
CSfC Series: Data-at-Rest Capability Package 4.8
The CSfC data-at-rest (DAR) capability package has evolved over the last five to six years. Starting with the initial draft version 0.8 in July 2014, the DAR CP has matured as expected with the ever-increasing CSfC-based storage applications in the field.
![Optimizing PCIe® Communications through Device Lending and Multicast with Dolphin PCIe Fabric Communications Library Optimizing PCIe® Communications through Device Lending and Multicast with Dolphin PCIe Fabric Communications Library](/sites/default/files/styles/cards_listing_mobile/public/2021-10/cs-fifty-usff-mission-processors-and-network-switches-for-isr-uav-targeting-system.png?itok=2XDagiOG)
Optimizing PCIe Communications through Device Lending and Multicast with Dolphin PCIe Fabric Library
In the third paper in our series, we cover additional features of the Dolphin PCIe Fabric Communications Library that help minimizes latency, maximize system bandwidth, and optimize configuration flexibility.
![Minimizing Latency in Peer-to-Peer Communications with Dolphin PCIe® Fabric Communications Library Minimizing Latency in Peer-to-Peer Communications with Dolphin PCIe® Fabric Communications Library](/sites/default/files/styles/cards_listing_mobile/public/2021-10/cs-fifty-cockpit-modernization-with-ethernet.png?itok=g18T3Cg8)
Minimizing Latency in Peer-to-Peer Communications with Dolphin PCIe Fabric Library
In this second white paper in our two-part series, we present several different software interfaces provided for applications development, comparing their advantages and tradeoffs. Finally, we present performance benchmarks using a variety of Curtiss-Wright.
![Small Form Factor (SFF) Mission System Modularity Enables Choice of Distributed or Consolidated Architectures Small Form Factor (SFF) Mission System Modularity Enables Choice of Distributed or Consolidated Architectures](/sites/default/files/styles/cards_listing_mobile/public/2021-11/wp-fifty-modern-high-speed-fti-recorders-switches-requirements.png?itok=WYEJkOVS)
Small Form Factor (SFF) Mission System Modularity Enables Choice of Distributed or Consolidated Architectures
This white paper explores how some of the use-case considerations and technological advances are driving system integrators to pursue a distributed over a consolidated system architecture and visa-versa.
![Open Systems Common HBCT Electronics VICTORY Architecture Approach Open Systems Common HBCT Electronics VICTORY Architecture Approach](/sites/default/files/styles/cards_listing_mobile/public/2021-10/wp-fifty-hidden-cost-video-system-integration.png?itok=-2A7bZEU)
Open Systems Common HBCT Electronics VICTORY Architecture Approach
The paper presents an open standards-based intra-vehicle network design approach applicable to multiple HBCT platforms using a common set of vehicle agnostic components, leveraging OpenVPX slot profiles and VICTORY Standards.