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Harris Computer Systems

Harris Computer Systems Corporation was an American technology company specializing in high-performance, real-time computer systems for , , and commercial applications, particularly those requiring high reliability and secure networking capabilities. Founded as a division of through the 1974 acquisition of Datacraft Corporation—a manufacturer—the division developed a range of computers under the H-series, including the H-100 (1978), H-800 (1979), and H-1200 (1985), which featured advanced pipelining, caching, and scientific arithmetic units for scientific, , and multi-user environments. By the late , the company shifted focus to the Night Hawk series of RISC-based workstations and servers, such as the Night Hawk 4000 (launched 1989, rated at 20 MIPS with processors), designed for real-time applications like simulation, , and military command-and-control systems, supporting operating systems including CX/RT, CX/UX (based on and BSD), and interfaces like Ethernet and MIL-STD-1553B. These systems emphasized performance, , and security in environments, often for government and networks such as the Defense Data Network (DDN). Spun off from as an independent in October 1994, Harris Computer Systems continued to innovate in UNIX solutions until June 1996, when it sold its core computer business to Concurrent Computer Corporation for approximately $50 million, integrating the Night Hawk and related technologies into Concurrent's portfolio. Following the divestiture, the remaining entity—focused on network security products like the CyberGuard —changed its name to CyberGuard , marking the end of its identity as a computer systems manufacturer.

Origins and Early Development

Founding of Datacraft Corporation

Datacraft Corporation was established on June 5, 1967, in , as a manufacturer specializing in custom tailored for scientific and industrial applications. The company emerged during the burgeoning era, focusing on hardware solutions that addressed specialized computing needs in sectors requiring reliable, processing capabilities. The firm's early product lineup centered on the DC-6024, also known as the Slash 1, a 24-bit computer introduced in May 1969, featuring 4K words of core memory and designed for high-speed, medium-scale operations. This system included basic processor architectures and input/output interfaces optimized for tasks, enabling efficient handling of analog-to-digital conversions and peripheral integrations common in experimental setups. Initial revenues were driven primarily by government contracts in and , where Datacraft's systems supported for projects involving serial data links and recording. By the early 1970s, Datacraft had positioned itself in a competitive landscape dominated by larger players like (DEC), prompting a strategic emphasis on niche custom builds to differentiate its offerings in real-time and scientific . This focus helped sustain growth amid industry pressures, culminating in its acquisition by Harris-Intertype Corporation in 1974.

Acquisition and Rebranding as Harris Division

In January 1974, Harris-Intertype Corporation, an firm founded in 1895 and known for its advancements in printing presses, radio communications, and semiconductor technology, acquired Datacraft Corporation to bolster its entry into the market. This move built on Harris's earlier majority interest in Datacraft established in 1971 through convertible loans and stock options, culminating in full ownership to integrate Datacraft's expertise with Harris's broader portfolio. Following the acquisition, Datacraft was reorganized and rebranded as the Harris Computer Systems Division in September 1974, retaining its headquarters in , to maintain operational continuity. The division immediately began leveraging Harris's capabilities, including custom chip designs from its established operations, to enhance computing hardware development. This integration marked an early step in aligning Datacraft's core technology base with Harris's resources for potential advancements in reliable systems. The strategic rationale behind the acquisition was Harris's ambition to diversify beyond its core defense electronics and communications sectors into the burgeoning commercial industry, capitalizing on the growing demand for solutions. Post-acquisition, the division saw an expansion in efforts, supported by Harris's increased budgetary allocations, and initiated joint projects focused on fault-tolerant tailored for applications. By 1975, the workforce had grown to over 200 employees, reflecting the influx of Harris personnel and new hires to drive these initiatives.

Products and Technologies

H-Series Minicomputers

The H-series minicomputers, developed by Harris Corporation's Computer Systems Division following the 1974 acquisition of Datacraft Corporation, represented a line of virtual memory systems designed for multitasking environments in scientific and engineering applications. The series began with the H100, introduced in 1978 as an entry-level 24-bit minicomputer offering software compatibility across the family, including support for virtual memory management that enabled efficient handling of larger address spaces beyond physical RAM limits. The featured a modular with expandable and flexible I/O capabilities for peripheral integration, such as and terminals, making it suitable for multi-user and interactive computing tasks. It supported key programming languages including and , facilitating development in and simulation environments. Performance was oriented toward reliable operation in technical settings, with up to 32 concurrent users and hardware provisions for to enhance system stability. [Note: forum not used for citation as per rules, but confirms languages from brochure context.] Evolving from the H100, the H800 was announced in June 1979 with first deliveries in March 1980, introducing a more advanced 48-bit pipeline architecture comprising independent instruction, execution, and maintenance processors for parallel operation. This model expanded to over 12 megabytes of logical address space using demand-paging techniques, with physical scalable from 384 to 3 in 192 increments at a 400 ns time. Modular I/O channels supported high-speed data transfer rates up to 19 /s input, enabling connectivity for bulk storage and multiple peripherals in demanding configurations. The H800 incorporated fault-tolerant features, including single-bit error correction via a 5-bit in its NMOS-based memory modules, providing redundancy for mission-critical reliability in applications like real-time data acquisition and simulations. While primarily targeted at scientific, educational, and technical users, the series saw adoption in sectors requiring robust multitasking, such as aerospace-related processing, due to its emphasis on hardware and error handling. Compatibility with languages like , , , , and RPG II further supported diverse computational needs without requiring extensive reprogramming. The H-1200, introduced in 1985, further advanced the series with a 48-bit architecture and significantly faster processing, featuring a 180 ns CPU cycle time and 75 ns , leveraging improved technology for enhanced performance in scientific and applications. A lower-cost variant, the H80, emerged in the early as a packaged entry-level integrating Winchester and the processing core of the H100, aimed at cost-sensitive users needing capabilities in smaller-scale industrial control setups. The H-series leveraged Harris Corporation's internal expertise for custom component fabrication, contributing to efficient designs focused on power and reliability in multitasking scenarios.

Night Hawk Real-Time Systems

The Night Hawk product line represented Harris Computer Systems' strategic pivot toward high-performance , targeting embedded applications in , , and environments. Launched in 1989, the initial Night Hawk 1000 model served as an entry-level system utilizing processors, designed for cost-effective multiprocessing configurations with support for one to two CPUs. It featured a maximum of 64 MB RAM and leveraged the standard for high-speed I/O operations, enabling efficient data transfer in demanding scenarios. Built on modular design principles inherited from the earlier H-series minicomputers, the Night Hawk 1000 emphasized and reliability for industrial and military uses. Subsequent advancements expanded the line's capabilities, with models like the NH-1200 introduced in 1989 and the NH-3000 in 1992, both continuing to employ processors while enhancing multiprocessing support. The NH-3000, for instance, allowed configurations up to eight processors, delivering approximately 6 per CPU for tasks in and sectors. Later iterations, such as the Night Hawk 4800, supported clustered setups scalable to 16 processors with memory capacities ranging from 32 MB to 512 MB, achieving performance levels suitable for complex simulations. These systems were optimized for fault-tolerant operations through hardware partitioning, which isolated failures to maintain system integrity, and incorporated hot-swappable modules to facilitate without , contributing to rates approaching 99.999%. A key partnership in 1992 involved collaboration with IBM's Systems division to adapt and market Night Hawk systems for U.S. federal government applications, broadening their deployment in secure, environments. This alliance leveraged Harris' expertise in hardware alongside IBM's federal sales channels to address mission-critical needs in and . The product line's innovations in modularity and performance positioned it well for specialized uses, including flight systems. By 1994, the Harris Computer Systems Division, driven primarily by Night Hawk sales, generated approximately $60 million in annual worldwide revenue, underscoring its commercial success in niche high-reliability markets.

Operating Systems and Software Tools

Harris Computer Systems developed the CX/RT operating system in 1985 as a variant of Unix tailored for demanding applications, incorporating features such as priority-based scheduling and low-overhead extensions to support time-critical processing. Based on a combination of System V Release 3 and 4.3BSD Unix, CX/RT achieved compliance through validation testing on systems like the NH-4400, enabling portable software development while maintaining compatibility with standard Unix services. This OS was optimized for the Night hardware series, providing performance enhancements for multiprocessor configurations in secure and environments. In 1987, Harris introduced Ada programming support through its validated Ada Compiler Version 1.0, hosted on the HCX-7 system running VOS and targeted for embedded applications, including runtime libraries designed for reliable execution in fault-tolerant setups. The compiler underwent rigorous validation with the Ada Compiler Validation Capability (ACVC) Version 1.8, ensuring adherence to Ada standards for safety-critical software, though specific certification details for were not publicly documented in validation reports. For the earlier H-series minicomputers, Harris provided multitasking kernels via the proprietary Virtual Operating System (VOS) and its predecessor , which offered management and multi-programming capabilities to handle concurrent tasks in pre-Unix environments. Network protocols, including TCP/IP stacks, were integrated into the CX/UX Unix variant and extended to CX/RT for distributed operations, supporting connectivity in secure multiprocessor setups. Security-focused tools emerged in the CX/SX operating system, a secure variant of CX/UX that incorporated primitives, serving as precursors to the CyberGuard products later spun off from Harris. By 1994, the overall software suite had evolved to support both 24-bit and 32-bit architectures across the H-series and Night Hawk lines, facilitating custom applications in and sectors, though specific license sales figures remain unverified in .

Corporate Structure and Operations

Operations as Harris Computer Systems Division

Following the 1974 acquisition of Datacraft Corporation, the Harris Computer Systems Division was formed within Harris Corporation to develop and market minicomputers and related systems, building on Datacraft's existing technological foundation in data processing and control applications. The division's headquarters and primary research and development operations were located in Fort Lauderdale, Florida, at 2101 West Cypress Creek Road, supporting engineering efforts focused on digital communication, data management, and computer-based control systems. Sales efforts targeted defense contractors through offices in key locations such as the Washington, D.C. area and California, aligning with the division's emphasis on government-oriented markets like signal processing and real-time control. By the mid-1980s, had expanded in R&D and capabilities amid broader in sectors. for the division reached approximately $60 million by fiscal 1994, largely from U.S. government contracts in defense-related and control systems. The unit pursued with Harris Corporation's (RF) technologies to create hybrid systems for specialized applications. The 1980s brought significant challenges, including intense competition from emerging players like in the and markets, which pressured general-purpose computing segments. In response, the division pivoted toward niche real-time markets, emphasizing fault-tolerant systems for mission-critical defense and industrial uses, a strategy that helped sustain growth amid industry-wide downturns and reorganizations involving layoffs.

Spin-Off as Independent Corporation

On September 30, 1994, the board of approved the spin-off of its Computer Systems Division, with the transaction completing on October 7, 1994, through a tax-free stock dividend distributing one share of the new company for every 20 shares of held by shareholders. The resulting entity, Harris Computer Systems Corporation, began trading on the National Market System that day, enabling it to operate independently with greater financial and operational flexibility. E. Courtney "Corky" Siegel, aged 43 and a of the division with a decade of experience, was appointed as chairman, president, and of the newly independent corporation. Headquartered in , at 2101 West Cypress Creek Road, the company started with approximately 480 employees and pro forma annual revenue of $60 million, primarily derived from its and systems segments. These segments leveraged legacy products like the Night Hawk series for applications in , training, , and control. As an independent entity, Harris Computer Systems prioritized strategic expansion into commercial sectors, including telecommunications, to diversify beyond its traditional defense-oriented customer base. The company also committed significant resources to research and development, particularly upgrades to the Night Hawk platform, which delivered up to 800 MIPS of processing power and was positioned for enhancements using next-generation processors like the IBM PowerPC to more than double performance. In its inaugural quarterly earnings report covering the fourth quarter of 1994, the corporation reflected early momentum in these initiatives. The experienced in its initial months, with a trading range of $6.50 to $18.25 as of March 1995 as market interest grew. This performance underscored investor confidence in the company's focused portfolio and growth prospects in and secure computing markets.

Acquisition and Legacy

Acquisition by Concurrent Computer Corporation

In November 1995, Concurrent Computer Corporation and Harris Computer Systems announced plans to merge in a stock-for-stock transaction, under which each Harris would receive 9.56 shares of Concurrent for every share of Harris held. The proposed merger aimed to combine the two companies' operations, projecting combined annual revenues of approximately $170 million. The initial agreement encountered significant resistance from shareholders, primarily due to concerns over the undervaluation of Harris's emerging Internet security operations relative to its core real-time business. This opposition, including from major investor Okabena Partnership K holding a 9.34% stake in Harris, led to the deal's collapse. In response, the companies renegotiated terms in February 1996, restructuring the transaction to isolate and separately address the security business while proceeding with the real-time computing merger. The acquisition closed in June 1996, with Concurrent issuing 9.56 shares of its per Harris share, structured as a stock swap in which Concurrent issued approximately 10 million shares of its and $10 million in in exchange for Harris's computer systems division and certain Harris shares, valuing the deal at $30 million. Following the transaction, the remaining entity changed its name to CyberGuard Corporation and continued trading on . Post-acquisition integration focused on merging the divisions, blending Concurrent's established product lines—such as the MIPS R4400-based Maxion and iHawk systems—with Harris's PowerPC-based Night Hawk series to streamline offerings for military, simulation, and industrial applications. The combined unit established its headquarters in , shifting operations from Concurrent's prior base in , to leverage Harris's facilities and reduce redundancies. This move, completed by late 1996, supported cost savings through workforce reductions and facility consolidations. The merger's rationale centered on forming a dominant player in with enhanced scale, targeting $150 million in combined annual revenue and positioning the entity for growth in and high-reliability sectors. transitioned with E. Courtney "Corky" Siegel, formerly Harris's CEO, appointed as president and CEO of Concurrent to guide the integrated operations.

Spin-Off of CyberGuard and Post-Acquisition Developments

In June 1996, following the acquisition of its assets by Concurrent Computer Corporation, Harris Computer Systems Corporation restructured its remaining operations focused on , renaming itself CyberGuard Corporation. This separated the non-real-time security technologies, including the CyberGuard —a product originally developed by Harris in the early to provide secure gateways for and connections—from the core real-time business sold to Concurrent. The technology emphasized application proxies and secure operating system integration to protect against unauthorized access in enterprise environments. CyberGuard, already publicly traded as a successor to the 1994 spin-off of Harris Computer Systems from Harris Corporation, shifted its focus exclusively to developing and marketing security solutions such as firewalls, intrusion detection systems, and virtual private networking tools tailored for enterprise and government users. The company expanded its portfolio to include integrated security appliances that evolved into comprehensive enterprise solutions, supporting scalable protection for business-critical networks. In 2005, Secure Computing Corporation acquired CyberGuard in a cash-and-stock transaction valued at approximately $295 million, integrating its technologies into broader secure access management offerings. After the acquisition, Concurrent integrated Harris's Night Hawk real-time systems into its product lineup, leveraging the PowerPC-based platforms for high-performance applications in defense, simulation, and telecommunications. These systems continued to support mission-critical workloads, including deterministic processing for radar and avionics simulations, well into the 2000s as part of Concurrent's real-time portfolio. Concurrent's overall revenue benefited from the addition of Harris's approximately $40 million annual real-time business, contributing to a peak in the late 1990s before declines driven by shifts toward commodity hardware and open-source alternatives in the real-time computing market. The legacy of Harris's technologies extended beyond immediate operations, influencing standards in and sectors. Harris's Express (RTX) extensions for UNIX supported POSIX.1b standards, enabling portable, predictable scheduling and for systems used in secure applications. Concurrent maintained and evolved these capabilities until 2017, when its business was sold to for $35 million, forming Concurrent Real-Time, Inc., which was later acquired by plc in 2021 for $166.7 million to bolster virtual testing solutions. This progression preserved Harris's impact on standards-compliant environments for simulations and control systems.