
JSCAPE by Redwood is a secure managed file transfer software built for enterprises looking to centralize, automate and govern complex file processes. It unifies fragmented tools and custom scripts into one reliable platform, handling any file size and any protocol (SFTP, FTP/S, HTTP/S, AS2, OFTP2, WebDAV, and more) while meeting regulatory requirements for HIPAA, PCI DSS, SOX, GDPR and GLBA.
JSCAPE’s enterprise-grade security claim is backed by an unblemished track record since 1999 and active third-party certifications that other providers don't hold: SOC 2 Type 1 and Type 2, ISO 27001, Drummond Certified™, and FIPS 140-2 and 140-3 validated encryption. Quarterly penetration testing, annual third-party audits, full audit trails for user and admin activity — in addition to granular access controls, IP whitelisting, data loss prevention, file integrity monitoring and DMZ proxy capabilities — give compliance teams the controls needed to stay audit-ready.
The solution fits cleanly into any environment (self-hosted, containerized or SaaS), with native integrations for Microsoft Azure, AWS, IBM Cloud, CyberArk, Box, Dropbox and more. 100+ no-code / low-code triggers and workflow automation templates allow IT teams to replace manual, error-prone processes across any platform (Windows, Linux, Mac, Solaris). REST API and Open API support enable direct integration with broader enterprise automation strategies, and automated failover, load balancing and active-active server redundancy eliminate unexpected downtime.
The support team has also earned top marks, with a 95.9% customer satisfaction rating and median response time of 8 minutes across all priority levels. Technical experts are available 24/7/365 via phone, email or web for no added cost, plus free quarterly health checks, personalized recommendations, and access to training through Redwood University. A hands-on approach to onboarding helps integrate JSCAPE with your existing stack quickly.
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RaimaDB is an embedded time series database designed specifically for Edge and IoT devices, capable of operating entirely in-memory. This powerful and lightweight relational database management system (RDBMS) is not only secure but has also been validated by over 20,000 developers globally, with deployments exceeding 25 million instances. It excels in high-performance environments and is tailored for critical applications across various sectors, particularly in edge computing and IoT. Its efficient architecture makes it particularly suitable for systems with limited resources, offering both in-memory and persistent storage capabilities. RaimaDB supports versatile data modeling, accommodating traditional relational approaches alongside direct relationships via network model sets. The database guarantees data integrity with ACID-compliant transactions and employs a variety of advanced indexing techniques, including B+Tree, Hash Table, R-Tree, and AVL-Tree, to enhance data accessibility and reliability. Furthermore, it is designed to handle real-time processing demands, featuring multi-version concurrency control (MVCC) and snapshot isolation, which collectively position it as a dependable choice for applications where both speed and stability are essential. This combination of features makes RaimaDB an invaluable asset for developers looking to optimize performance in their applications.
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PikeOS
PikeOS is an advanced hypervisor built on a separation kernel, designed to enable numerous partitions for various operating systems and applications. This platform facilitates the development of intelligent devices tailored for the Internet of Things. Renowned for its robust protection against cyber-security threats, PikeOS is an ideal solution for systems needing stringent security measures, thanks to its innovative separation kernel design. It enjoys widespread adoption, being utilized in millions of edge and IoT devices, and has also found applications in essential communications infrastructure. PikeOS merges virtualization and real-time capabilities through pioneering technologies that are unparalleled in the industry. Additionally, it allows for the integration of multiple intricate embedded circuit boards onto a single hardware platform. Furthermore, PikeOS demonstrates versatility by accommodating new hardware architectures, such as Big-SoCs, which incorporate various heterogeneous cores. This hypervisor is compatible with multiple architectures and can support processors equipped with a memory management unit (MMU). With its unique capabilities, PikeOS stands out as a leading solution in the realm of secure and efficient computing.
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Zephyr
This system encompasses a wide array of devices, from fundamental embedded environmental sensors and LED wearables to sophisticated embedded controllers, smartwatches, and IoT wireless applications, featuring a configurable architecture that includes stack-overflow protection, permission tracking for kernel objects and device drivers, and enhanced thread isolation through thread-level memory protection across various architectures such as x86, ARC, and ARM, along with distinct userspace and memory domains. Additionally, for systems that do not have a Memory Management Unit (MMU) or Memory Protection Unit (MPU) and those constrained by limited memory, it facilitates the combination of application-specific code with a customized kernel to create a monolithic image that can be seamlessly loaded and executed on the hardware. Within this framework, both the application and kernel code function within a single address space, promoting efficient resource management and performance enhancements. Consequently, this architecture is adept at enabling even the most resource-limited environments to effectively utilize advanced applications and sophisticated functionalities, thereby broadening the scope of what can be achieved in embedded systems.
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