This white paper outlines the technical elements of a SWaP-optimized (size, weight, & power) scalable platform for accelerating innovation in Space— including new levels of in situ adaptability not previously possible-allowing satellites to react to evolving mission needs in real time.
This white paper examines why we need a new approach to scaling processing and cloud architectures for Space. We'll discuss what we can learn from novel historical approaches, and how a new Space-loT architecture, available now, solves the specific Space challenges of unreliable power, inability to store an infinite amount of data from loT satellite nodes, and crippling radiation-enabling the Orbital Internet and the Mars/Moon Gateway.
Given the insurgence of investment, innovation and diverse interests of the involved players, historically large satellites are being de-emphasized in favor of constellations of smaller, more nimble satellites now conducive to emerging commercial launch services. This transition offers the opportunity for heavily matrixed satellite coverage that can be deployed cost effectively and provide redundancy and resilience against failure or threats. However, traditional satellite communications primarily leverage point to point links with Earth, presenting a new wave of challenges that limit the speed, bandwidth, resilience, and scalability required to support this growing satellite network.
This white paper by Avalanche Technology delves into the increasing relevance of MRAM (Magnetoresistive Random Access Memory) in the Aerospace and Defense industry, highlighting its radiation-hard properties, endurance, and immunity to Single Event Upsets (SEUs) and Single Event Latch-ups (SELs). Through detailed comparisons with traditional memory technologies like Flash, DRAM, and SRAM, the paper outlines MRAM's superiority in harsh environments, such as those experienced in space and high-altitude applications. It also features insights on MRAM’s role in simplifying system designs and enhancing reliability, citing evaluations from notable organizations like NASA. This resource is essential for professionals seeking advanced, durable memory solutions for aerospace and defense applications.
In today's rapidly evolving digital landscape, organizations face numerous challenges in ensuring the security of their sensitive data. Our comprehensive white paper delves into innovative strategies for fortifying cybersecurity frameworks, addressing both emerging threats and regulatory requirements. It outlines best practices for proactive threat detection, risk management, and incident response, while also exploring the benefits of cutting-edge technologies such as artificial intelligence and machine learning. By implementing the insights and recommendations provided, businesses can significantly bolster their defenses, safeguarding critical assets and maintaining trust with their stakeholders.