
JSCAPE by Redwood is a secure managed file transfer (MFT) software that automates complex file workflows, consolidating manual processes, custom scripts and siloed tools into a single, reliable platform. Low-code automation triggers enable IT teams to orchestrate file transfers across Windows, Linux, macOS, Solaris and any other platform, with unlimited users, trading partners and concurrent connections included and no additional middleware required.
JSCAPE delivers enterprise-grade security, backed by an unblemished track record since 1999 and active third-party certifications that most MFT 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 and annual third-party audits keep your environment audit-ready year-round.
The solution handles any file size and any protocol — SFTP, FTP/S, HTTP/S, AS2, OFTP2, WebDAV, and more — while meeting compliance requirements for HIPAA, PCI DSS, SOX, GDPR and GLBA. It also fits cleanly into any environment (on-premises, cloud, hybrid, containerized or SaaS), with native integrations for Microsoft Azure, AWS, IBM Cloud, CyberArk, Box, Dropbox and leading workload automation solutions like RunMyJobs.
Trusted by 1,000+ organizations in 57+ countries, JSCAPE includes 24/7/365 expert technical support with an 8-minute median response time and online training at no extra cost in every plan.
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RaimaDB, an embedded time series database that can be used for Edge and IoT devices, can run in-memory. It is a lightweight, secure, and extremely powerful RDBMS. It has been field tested by more than 20 000 developers around the world and has been deployed in excess of 25 000 000 times.
RaimaDB is a high-performance, cross-platform embedded database optimized for mission-critical applications in industries such as IoT and edge computing. Its lightweight design makes it ideal for resource-constrained environments, supporting both in-memory and persistent storage options. RaimaDB offers flexible data modeling, including traditional relational models and direct relationships through network model sets. With ACID-compliant transactions and advanced indexing methods like B+Tree, Hash Table, R-Tree, and AVL-Tree, it ensures data reliability and efficiency. Built for real-time processing, it incorporates multi-version concurrency control (MVCC) and snapshot isolation, making it a robust solution for applications demanding speed and reliability.
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Zephyr
Ranging from basic embedded environmental sensors and LED wearables to advanced embedded controllers, smartwatches, and IoT wireless applications, this system incorporates configurable architecture-specific stack-overflow protection, kernel object and device driver permission tracking, and thread isolation enhanced by thread-level memory protection across x86, ARC, and ARM architectures, as well as userspace and memory domains. For systems lacking MMU/MPU and those limited by memory capacity, it enables the integration of application-specific code with a tailored kernel to form a monolithic image that can be loaded and run on the hardware of the system. In this setup, both the application and kernel code operate within a unified address space, facilitating efficient resource utilization and performance optimization. This design ensures that even resource-constrained environments can effectively leverage complex applications and functionalities.
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PikeOS
PikeOS is a separation kernel-based hypervisor that supports multiple partitions for many operating systems and applications. It allows you to create smart devices for the Internet-of-Things. PikeOS is the best choice for systems that require protection against Cyber-Security attack due to its separation kernel approach. It is widely used in millions of edge and IoT systems. However, it has also been deployed in critical communications infrastructures. PikeOS combines virtualization and real time with unique technologies that have never been seen before. It allows you to move multiple complex embedded circuit boards into one hardware. It is also able to handle new hardware concepts like Big-SoCs that have multiple heterogeneous cores. PikeOS can run on multiple architectures and support processors that have a memory management unit (MMU).
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