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IBM 4300

The IBM 4300 series is a family of mid-range mainframe computers developed by IBM, announced on January 30, 1979, and sold from 1979 through 1992, designed for medium- to large-scale data processing applications, offering compatibility with the System/370 architecture while providing improved price/performance over prior systems.^[1] Initially comprising the 4331 and 4341 processor models, the series targeted first-time mainframe users, distributed processing environments, and replacements for aging System/360 installations, with over 10,000 units installed worldwide by 1981.^[1] Key features across the series included the System/370 Universal Instruction Set, byte-addressable virtual storage with addressing up to 16 MB, and support for operating systems such as DOS/VSE, OS/VS1, VM/370, and MVS on higher-end models.^[1] All models utilized advanced 64K-bit memory chips, high-density packaging for reduced power and cooling needs, and firmware enhancements like the Extended Control Program Support (ECPS) mode to minimize operating system overhead.^[1] Processor storage ranged from 0.5 MB to 8 MB in early models, with buffer storage of 8 KB to 16 KB, and I/O capabilities via block multiplexer channels supporting virtual storage addressing.^[1] The series evolved through several model expansions and replacements: the 4331 Model Group 2 was added in May 1980, followed by the 4341 Model Group 2 in September 1980; the 4321 was introduced as a lower-end option in 1981; the 4361 arrived in September 1983 with models offering up to 12 MB storage and enhanced workstation adapters; and the 4381, announced in 1983 as a higher-performance successor to the 4341, featured cycle times as low as 56 ns, up to 32 MB storage, and multiprocessor configurations in select groups.^[1]^[2]^[3] Early models like the 4321 and 4331 were withdrawn from marketing on December 31, 1984, while the 4341 was withdrawn on February 11, 1986, shifting focus to the 4361 and 4381 for continued mid-range needs.^[2] Notable for its role in bridging entry-level and large-scale computing, the 4300 series emphasized reliability, availability, and serviceability (RAS) through features like instruction retry, error reconfiguration, and remote support facilities, particularly advanced in the 4381 with its dynamic channel subsystem and data streaming up to 3 MB/sec per channel.^[3] It supported a wide array of peripherals, including 3370/3375 DASD drives and 3800 printers, and enabled networking via channel-to-channel adapters for integration with other IBM systems like the 30XX series.^[1]^[3]

Overview

History and Development

The IBM 4300 series originated as the "E Series" during its internal development phase at IBM, aimed at creating a family of mid-range mainframes fully compatible with the System/370 architecture to bridge the performance and cost gap between high-end System/370 systems and emerging minicomputers. This initiative responded to rising costs of time-sharing services and the computing needs of smaller businesses and departmental users, offering improved price/performance ratios—up to four times better than comparable System/370 processors—through innovations like bipolar gate array technology and high-density packaging. The series was designed for standalone or distributed processing environments, targeting first-time mainframe users and replacements for aging System/360 installations.^[4]^[5] The initial models, the IBM 4331 and 4341, were announced on January 30, 1979, with first deliveries beginning in the second quarter of that year for the 4331 and the fourth quarter for the 4341. Subsequent enhancements followed, including the 4331 Model Group 2 on May 6, 1980, and the 4341 Model Group 2 on September 15, 1980, which doubled main memory capacity and processing power. The low-end IBM 4321 variant was introduced in 1981 as a cost-reduced option limited to the U.S. market, while the IBM 4361 and 4381 models expanded the lineup on September 15, 1983, further emphasizing scalability and compatibility. Manufacturing occurred primarily at IBM facilities in Endicott, New York, and Mainz, Germany.^[4]^[6]^[7] By 1981, over 10,000 units of the 4300 series had been installed worldwide, reflecting strong initial adoption for business and scientific applications. The series evolved with a focus on cost efficiency in early models, transitioning to enhanced capabilities in later ones; for instance, the 4381 introduced support for System/370 Extended Architecture (370-XA) in 1983, enabling larger address spaces and improved virtual storage management. Production and sales continued until 1992, with the lineup gradually withdrawn starting in 1984 for lower-end models like the 4321 and 4331.^[4]^[8]

Design Goals and Market Positioning

The IBM 4300 series was designed with primary objectives centered on reducing total ownership costs for computing resources, making mainframe capabilities accessible beyond large-scale data centers. Key to this was the incorporation of modest power and cooling requirements, with the entry-level IBM 4331 Model Group 1 consuming approximately 70% less power than the comparable System/370 Model 138, allowing installation in standard office environments without specialized infrastructure. This approach enabled departmental computing for mid-sized businesses and universities, where space and utility constraints often limited traditional mainframe adoption.^[9] In terms of market positioning, the 4300 series aimed to disrupt established computing paradigms by undercutting the costs of external time-sharing services, including IBM's own offerings, through affordable in-house processing that supported multi-user environments via VM/370 Release 6. Priced significantly lower than prior mainframes while delivering up to four times the price/performance of System/370 systems, the series targeted small to medium enterprises seeking reliable, scalable solutions without the overhead of remote access fees. For instance, the IBM 4331 started at approximately $200,000 for a basic configuration, a fraction of larger systems' costs, which helped shift revenue from IBM's service-based models toward hardware sales.^[9]^[1] The series was strategically positioned against minicomputers such as the DEC VAX, offering System/370 compatibility for superior software ecosystem and reliability at comparable or lower entry points for mid-range applications. Target audiences included scientific and academic users, as well as branch offices and departments in larger organizations, with an emphasis on ease of installation and maintenance—such as field-upgradable components that could be swapped in 13 to 16 hours without halting operations. This focus on usability broadened mainframe accessibility, fostering distributed processing in environments previously dominated by less robust minicomputers like the Burroughs B 2900 or Sperry Univac 90/60.^[10]^[9]^[1]

Technical Architecture

Processor Design and Compatibility

The IBM 4300 series processors were designed to provide full compatibility with the System/370 architecture, incorporating virtual storage capabilities and 24-bit addressing as standard features. This compatibility ensured that the processors could execute System/370 software without modification, operating in either Basic Control (BC) mode, which emulates System/360 behavior, or Enhanced Control (EC) mode for full System/370 functionality. In EC mode, the processors support dynamic address translation for virtual memory management, with the System/370 architecture using pages of either 2 KB or 4 KB size and up to 8,192 pages in the 2 KB configuration, enabling up to 16 MB of virtual storage through one-level addressing in certain configurations. Later models, such as the 4381, extended this with support for System/370 Extended Architecture (370-XA), allowing 31-bit addressing and bimodal operation where 24-bit and 31-bit programs could run concurrently.^[11]^[3] The processors employed bipolar technology in their initial implementations, utilizing large-scale integration (LSI) chips to achieve reliable performance in mid-range systems. Over time, the design transitioned to multi-chip modules, which stacked ceramic substrates containing up to nine logic chips each, improving density and efficiency while maintaining the microprogrammed control structure. Cycle times varied across the series, with early models operating at approximately 115-138 ns and later models like the 4381 achieving 56 ns through advanced chip technology, reflecting evolutionary improvements in speed without altering the core architecture. This bipolar-based design supported a 64-bit arithmetic logic unit and data paths, ensuring robust handling of System/370 instructions.^[12]^[13] The instruction set adhered strictly to the System/370 Universal Instruction Set, including general-purpose operations (e.g., ADD, LOAD, BRANCH), decimal arithmetic, floating-point computations in short, long, and extended formats, and control instructions like STORE CPU ID and SET SYSTEM MASK. Formats such as RR, RX, RS, SI, S, and SS were supported, with privileged instructions restricted to supervisor state for security. To optimize operating system performance, the processors included Extended Control Program Support (ECPS) features, such as tailored microcode enhancements for specific environments like VSE, which streamlined control program execution by omitting unnecessary dynamic address translation and providing facilities like machine save for preserving CPU state.^[11] Compatibility modes emphasized seamless integration with prior IBM systems, offering backward compatibility with System/360 through BC mode, which uses a compatible Program Status Word (PSW) format and inherits number representation principles—no software emulation was required for System/370 applications, as the hardware directly supported the instruction set and virtual addressing. This design allowed existing System/360 and System/370 programs to run unchanged, facilitating migration for users while enabling new capabilities in later models.^[11]

Memory and Storage Systems

The IBM 4300 series employed monolithic metal-oxide-semiconductor (MOS) technology for its main memory, utilizing the SAMOS process with N-channel field-effect transistors (FETs) implemented on 64K-bit dynamic random-access memory (DRAM) chips mounted on ceramic multi-layer modules. This design provided reliable, high-density storage suitable for mid-range computing environments. Initial configurations offered base main memory capacities starting from 512 KB in the 4331 Model Group 1, scaling up to 8 MB in the 4341 Model Group 2, with expandability in 1 MB increments at an incremental cost of approximately $15,700 per megabyte. Later models in the series, such as the 4381 Model Groups 91E and 92E, extended maximum capacities to 64 MB, addressing growing demands for larger workloads without requiring full system upgrades.^[1] Virtual storage capabilities in the 4300 series were built on the System/370 architecture, supporting up to 16 MB of virtual address space in early models through dynamic address translation (DAT). This mechanism used hardware-assisted paging, featuring a segment table and page table lookup with a translation lookaside buffer (TLB) to map virtual addresses to real memory efficiently, allowing programs larger than physical memory to execute without modification. The paging system divided memory into pages of either 2 KB or 4 KB, enabling demand paging under operating systems like OS/VS1 and OS/VS2, which improved resource utilization in multi-programming environments.^[1]^[14] For direct-access storage devices (DASD), the 4300 series integrated with the IBM 3310, which offered 64.5 MB of storage per spindle organized into 358 user-accessible cylinders, employing Winchester disk technology—a sealed head/disk assembly that minimized contamination and enhanced reliability for fixed-media operations. Data transfer rates reached 1.031 MB/s via fixed-block architecture, with up to four drives per string attached through a dedicated DASD adapter. The IBM 3370 provided higher-capacity options at up to 571 MB per spindle using thin-film head technology on non-removable disks, also based on Winchester principles for durability, with transfer rates of 1.859 MB/s and support for up to four strings per adapter. These DASD units emphasized reliability through error-correcting codes and defect management, making them integral for transaction processing and data-intensive applications in the series.^[1]^[15]^[16] Early 4300 designs lacked dedicated L1 or L2 caches in the processor core, relying instead on small buffer storage—ranging from 8 KB in the 4331 Model Group 2 and 4341 Model Group 1 to 16 KB in the 4341 Model Group 2—for temporary data holding during instruction execution, with access cycle times of 200 ns for 4-byte fetches in the 4331. Input/output operations depended on channel buffers within the I/O subsystem to manage data staging between main memory and peripherals, ensuring efficient transfer without on-chip caching overhead. This buffering approach prioritized compatibility with System/370 peripherals while maintaining cost-effectiveness for mid-range systems.^[1]

Input/Output and Channeling

The IBM 4300 series utilized a channel subsystem derived from System/370 architecture, incorporating block multiplexer channels for high-speed peripherals and byte multiplexer channels for low-speed devices, allowing multiple I/O operations to proceed independently of the CPU.^[1] Block multiplexer channels supported data streaming mode, enabling burst transfers at rates up to 1.5 MB/s per channel in early configurations, while byte multiplexer channels handled interleaved byte transfers for devices like terminals and printers.^[17] This design facilitated one high-speed I/O transfer per block multiplexer channel concurrently with computing, ensuring the processor remained available for other tasks without interruption.^[2] Integrated controllers were a key feature of the I/O subsystem, including adapters for direct-access storage devices (DASD) and tape units, which streamlined connectivity for common peripherals without requiring external channel-to-control unit cabling in basic setups.^[1] For example, DASD adapters supported devices such as the 3370 disk drives, while tape controllers handled units like the 3420 magnetic tape drives, with data rates optimized for the channel's capabilities.^[18] The byte multiplexer channel, in particular, managed low-speed I/O via subchannels, supporting up to 256 devices per channel for distributed operations.^[19] Enhancements in later models expanded the channel capacity, increasing the number of block multiplexer channels to support growing I/O demands, with some configurations reaching up to eight channels and higher aggregate throughput.^[10] Data rates improved in these variants, with high-speed block multiplexers achieving up to 3 MB/s in streaming mode for advanced peripherals.^[20] The series maintained compatibility with front-end processors such as the IBM 3705 and 3706 communications controllers, enabling networked I/O operations like remote job entry without impacting local processing.^[1] Overall, this channeling approach ensured scalable, non-disruptive I/O handling across the 4300 lineup.^[17]

Models

IBM 4331

The IBM 4331 served as the entry-level processor in the IBM 4300 series, introduced to provide affordable computing for smaller-scale operations. Announced on January 30, 1979, it initially launched with Model Group 1 configurations, followed by Model Group 2 in May 1980 to offer enhanced capabilities. Model Group 1 was withdrawn from marketing on November 18, 1981, as higher-performing options became available within the series.^[21]^[22] Key specifications included a maximum main memory capacity of 8 MB using MOS technology with error correction, supporting configurations from 0.5 MB in early models up to the higher limits in later groups. Performance levels were equivalent to approximately four IBM System/370 Model 115 processors for typical workloads, with an internal processor cycle time of around 138 ns enabling efficient execution of commercial applications. The system featured integrated adapters for direct attachment of disk and tape units, along with up to four I/O channels for peripheral connectivity.^[21]^[23] Distinctive features emphasized its suitability for constrained environments, including a compact footprint designed for office installation without requiring specialized data centers, which reduced setup complexity for non-expert users. Basic support for the APL programming language was provided through the VS/APL feature, enabling mathematical and scientific computing tasks. Pricing for the base CPU with minimum memory started at about $64,000 for Model Group 1 and rose to $82,500 for Group 2, while power consumption remained modest at approximately 5 kW (4.7 kVA) for uniprocessor configurations, facilitating easier integration into standard facilities.^[21]^[23] Targeted primarily at small businesses and first-time computer adopters, the 4331 was positioned for standalone or distributed processing in environments like branch offices or departmental operations. Installations were common in sectors such as local government agencies, educational institutions, and mid-sized enterprises handling accounting, inventory, and basic data processing; for instance, it supported early networked setups in retail chains for point-of-sale integration. The processor maintained compatibility with System/370 software environments, allowing seamless migration of existing applications.^[23]^[24]

IBM 4341

The IBM 4341 was introduced as the mid-range offering in the IBM 4300 series, targeting growing enterprises requiring higher performance and capacity than entry-level systems. Announced on January 30, 1979, and withdrawn on February 11, 1986, it featured model groups 1, 2, and 3, with progressive enhancements in processing power and memory.^[7]^[25] The system utilized large-scale integration (LSI) technology for compatibility with the System/370 architecture, including virtual storage addressing and the Universal Instruction Set.^[26] Key specifications included a maximum main memory of 16 MB, supporting virtual storage extensions, and up to six I/O channels—comprising one byte multiplexer and five block multiplexers—for efficient data transfer rates aggregating up to 9 MB per second in maximum configurations.^[26] Performance reached up to 3.2 times that of the System/370 Model 138, achieved through an 8-byte-wide data path, buffer storage, and optimized cycle times ranging from 120 to 240 nanoseconds.^[25] The air-cooled design minimized power and heat output, enabling a compact footprint approximately two-thirds the size of comparable System/370 models, while supporting larger direct-access storage device (DASD) configurations such as up to 16 units of the 3370 model with capacities exceeding 2.5 billion bytes per string.^[26] Unique to the 4341 were Emulated Control Program Support (ECPS) optimizations tailored for VM/370 and VSE environments, which reduced processor overhead for address translation and control functions by up to 84%, enhancing overall throughput.^[26] Model Group 1, launched with Models K1 (2 MB memory) and L1 (4 MB memory) in 1979, provided baseline mid-range capabilities with first shipments in the fourth quarter.^[25] Model Group 2, announced September 15, 1980, doubled memory to 8 MB using 64K-bit chips and delivered 50-80% higher performance through faster buffer access and improved peripherals support.^[1] Model Group 3, introduced in 1981, further enhanced throughput with advanced technology upgrades, including better integration for high-speed I/O and expanded reliability features like error-correcting code (ECC) memory and automatic instruction retry, making it suitable for demanding commercial and scientific workloads.^[26] These variants positioned the 4341 as a scalable solution for enterprises transitioning from smaller systems, with optional features like channel-to-channel adapters enabling connectivity to up to four additional channels via a two-channel switch.^[26]

IBM 4321

The IBM 4321 was announced in November 1981 as the entry-level model in the IBM 4300 series, and was available only in the United States, positioned as a compact, preconfigured system targeted at small-scale departmental computing with a strong emphasis on integrated direct access storage device (DASD) support.^[27]^[7] It functioned primarily as a low-cost extension for storage expansion in conjunction with higher-end 4300 processors such as the 4331 and 4341, enabling efficient attachment of disk drives without requiring a full standalone processing unit.^[27] The model was withdrawn from marketing in 1984, reflecting IBM's shift toward more advanced 4300 variants like the 4361.^[20] Key specifications of the IBM 4321 centered on its role as a DASD controller variant, featuring a single CPU with limited processing capability, optimized for basic control functions rather than intensive computation.^[7] Main memory ranged from 1 to 2 megabytes of MOS technology with standard error correction, while control storage was 128 kilobytes.^[27] It included an integrated DASD adapter supporting up to 16 IBM 3310 drives (each providing 64.5 MB), with compatibility for additional 4300-series DASD types such as the 3330, 3333, and 3370 through channel attachments.^[27]^[20] An 8809 magnetic tape unit adapter allowed connection of up to six tape drives for backup purposes.^[27] Unique to the 4321 were its design choices for cost-effective storage augmentation in existing 4300 environments, including no capability for independent high-volume processing and a focus on reliability for archival and data preservation tasks through robust error-correcting mechanisms in memory and storage interfaces.^[27] The system incorporated preinstalled adapters for display/printer (up to 16 ports) and communications (three BSC/SDLC lines), facilitating simple integration into office or remote setups without extensive configuration.^[27] Field upgrades to the more capable 4331 Model Group II were supported, allowing scalability for growing storage needs.^[27] Primarily aimed at storage-intensive small business or departmental sites, the 4321 enabled reliable DASD expansion for 4331/4341 installations, supporting operating systems like DOS/VSE and VM/370 with CMS for basic data management and archival operations.^[27] Its workstation-oriented configuration promoted ease of use by non-technical personnel, with first customer shipments occurring in March 1982 at a base purchase price of around $109,650.^[27]

IBM 4361

The IBM 4361, announced on September 15, 1983, represented a significant upgrade within the IBM 4300 series, introducing model groups 1 and 2 to deliver enhanced performance for mid-range computing needs. These models were withdrawn from marketing on February 17, 1987, marking the end of their production lifecycle as users transitioned to subsequent systems like the 4381. Designed to succeed the earlier 4331, the 4361 emphasized improved throughput for both commercial and scientific workloads, positioning it as a versatile option for departmental and small-scale enterprise environments.^[28] Key specifications included a maximum main memory capacity of 12 MB using MOS technology, a substantial increase over prior models to support more demanding applications. Performance metrics highlighted up to three times the commercial processing speed of the IBM 4331 Model 2, achieved through architectural refinements such as a larger 16 KB cache and optimized instruction execution. Cycle times were improved to approximately 100 ns, enabling faster data handling and better overall system responsiveness compared to the 4331's longer cycles. These enhancements made the 4361 suitable for bridging the gap to higher-end systems, particularly in scenarios requiring balanced I/O and computational efficiency.^[29]^[28]^[30] Unique features distinguished the 4361, including the optional Auto-Start capability, which simplified system booting by allowing preprogrammed or remote power-on sequences for unattended operations. An APL keyboard option was available through the 1120 APL/Text feature, catering to users in mathematical and programming-intensive fields. The High-Accuracy Arithmetic Facility (ACRITH), standard across all models, provided decimal floating-point extensions via new instructions and subroutines for VS Fortran and Assembler, enhancing precision in scientific computing tasks. These elements contributed to its popularity in academic and engineering settings, where reliable, specialized arithmetic support was essential.^[29]^[29]^[29]

IBM 4381

The IBM 4381 served as the high-end offering in the IBM 4300 series, announced on September 15, 1983, with initial uniprocessor Models 1 and 2 targeted at enterprise environments requiring robust processing capabilities.^[31] In May 1987, IBM introduced enhanced models including the uniprocessor Model 13, dual-processor Model 14, and higher-performance Model 23, which incorporated faster chip technologies for improved throughput.^[8] These configurations extended the model's scalability, with the entire 4381 line ultimately withdrawn in 1992 after nearly a decade of service as the final 4300 processor.^[32] Key specifications of the 4381 emphasized its position as a scalable enterprise system, supporting up to 64 MB of main memory in later models to handle demanding workloads.^[3] Performance reached up to over five times that of the IBM 4341 Model Group 2 in top configurations, driven by dual-CPU options in models like the 14 and 23, which enabled multiprocessor operation for balanced load sharing.^[33] Late models featured a reduced cycle time of 56 ns, enhancing instruction execution efficiency compared to earlier 68 ns or 88 ns variants, while I/O capabilities included up to eight channels for high-volume data transfer.^[3] Distinctive architectural elements set the 4381 apart, including native support for the System/370 Extended Architecture (370-XA), which introduced 31-bit addressing and a dynamic channel subsystem for up to 2 GB of virtual storage addressing.^[3] The processor utilized 64 mm multi-chip modules (MCMs) as its core packaging technology, each a ceramic substrate mounting up to 36 bipolar logic chips for dense, high-speed computation.^[33] Enhanced high-speed channeling leveraged block multiplexer channels capable of data streaming at 3 MB/sec, optimizing connectivity for peripherals and networks.^[3] Cooling relied on air-cooled aluminum heat sinks with impingement techniques, using ambient room air to dissipate heat without requiring water systems, which contributed to its compact footprint and reliability in data centers.^[33] As an enterprise backbone, the 4381 powered critical business applications in sectors like finance and manufacturing, benefiting from ongoing upgrades that sustained its viability through 1992.^[8] Its longevity reflected the 4300 series' design philosophy of modularity, allowing field upgrades from earlier models and ensuring compatibility with evolving enterprise needs until the transition to successor systems.^[3]

Software and Operating Systems

Supported Operating Systems

The IBM 4300 series processors were designed to run a selection of IBM's System/370-compatible operating systems, with primary support for DOS/VSE (up to Release 3), VM/370 Release 6, and OS/VS1 Release 7, alongside limited MVS capabilities on later models such as the 4341, 4361, and 4381.^[13] These systems emphasized compatibility with established System/370 software environments, allowing mid-range installations to leverage existing applications while accommodating the 4300's uniprocessor architecture and modest resource constraints.^[1] DOS/VSE, an extended version of DOS/VS incorporating virtual storage features, was introduced in 1979 specifically to align with the initial 4300 models like the 4331 and 4341, providing batch-oriented processing for business applications with support for up to 12 partitions.^[34] VM/370 Release 6, announced alongside the 4300 series in January 1979, offered a virtual machine environment for time-sharing and testing, with enhancements for interactive file sharing via VS/IFS to support multiple CMS users accessing VSAM datasets.^[1]^[35] OS/VS1 Release 7, also released in 1979, delivered single-system virtual storage management suited for departmental computing, including tools like the Direct Access Device Migration Aid for transitioning peripherals.^[12] Limited MVS support emerged with the 4341 model, extending to MVS/XA on the 4381 (announced in 1984), though constrained by the series' maximum memory of 32 MB in System/370-XA mode. Hardware requirements varied by operating system but aligned with the 4300's base configuration of 512 KB to 8 MB of main memory and integrated I/O channels. DOS/VSE, for instance, required a minimum of 512 KB of main memory on systems like the 4331, with the supervisor occupying as little as 112 KB in System/370 mode (of which up to 24 KB could be pageable) to leave resources for applications and data management.^[34]^[1] VM/370 Release 6 and OS/VS1 Release 7 similarly operated within 512 KB minimums, scaling to the full memory range for virtual machine overhead or multiprogramming levels. All operating systems relied on the processors' 1 to 6 I/O channels—typically including at least one block multiplexer channel for high-speed DASD attachments and a byte multiplexer channel for slower peripherals—to handle input/output operations, with channel adapters like the 2820 or 2830 required for expanded connectivity.^[1]^[13] The 4300 series supported multi-OS configurations through logical partitioning via VM/370 Release 6 and later VM variants, enabling multiple instances of guest operating systems—such as DOS/VSE, OS/VS1, or even MVS—to run concurrently on a single processor as virtual machines, thereby maximizing hardware utilization without physical repartitioning.^[29] This capability, enhanced in VM/XA for 370-XA mode on later models, allowed up to several dozen virtual machines depending on memory allocation, supporting diverse workloads like development testing alongside production environments.^[20]

Software Compatibility and Features

The IBM 4300 series processors provided full binary compatibility with System/370 software, allowing existing programs to run without recompilation in System/370 mode, provided they did not rely on time-dependent features or specific hardware unavailable on the 4300.^[19] This compatibility extended to most applications developed for prior System/370 installations, facilitating seamless transitions for users upgrading from mid-range systems.^[20] Key optimizations included Extended Control Program Support (ECPS) features tailored for specific operating environments, enhancing performance by reducing supervisory overhead through microcode-level instructions. For instance, ECPS:VM/370 reduced CPU busy time for the VM/370 control program by up to 84 percent compared to standard execution.^[20] Similarly, ECPS:VSE achieved up to a 20 percent reduction in total CPU time for DOS/VSE workloads, while ECPS:VS1 lowered OS/VS1 supervisor CPU usage by up to 7 percent; ECPS:MVS enabled efficient support for MVS/SP-JES2 and JES3 on models like the 4341.^[1]^[1]^[19] The High-Accuracy Arithmetic (ACRITH) facility, a hardware-supported feature, integrated with operating systems via a dedicated subroutine library for engineering and scientific applications, allowing algorithmic verification of floating-point results without altering core OS structures.^[29] Notable software features leveraged the 4300's hardware for enhanced usability, such as the Auto-Start capability in VM/370, which automated virtual machine initialization and scripting for streamlined system bootstrapping and guest OS loading.^[2] On the 4361, extensions to VS APL provided advanced array processing and workspace management optimized for the processor's virtual storage architecture.^[35] Migration paths from System/360 were supported through the Basic Control (BC) mode on models like the 4361, enabling direct execution of System/360 programs alongside System/370 workloads for phased upgrades.^[13] Programming support encompassed standard languages like Assembler (BAL), COBOL, and FORTRAN, with I/O macros in the Operating System macros (e.g., for EXCP and BDAM) facilitating efficient use of the 4300's block multiplexer channels for data transfer.^[35] These elements ensured that developers could leverage the series' channeling capabilities—such as attachment to legacy peripherals—without significant code modifications.^[20]

Legacy

Technological Innovations

The IBM 4300 series marked a significant shift in mainframe processing technology by transitioning from bipolar logic to metal oxide semiconductor (MOS) large-scale integration (LSI), enabling higher circuit density and improved performance in mid-range systems. This adoption of the SAMOS N-channel field-effect transistor process for memory and control storage allowed for logic chips containing up to 704 circuits, switching at rates exceeding 300 million times per second, while providing 32 times the memory density of the System/370 Model 138.^[36] The change reduced power consumption by up to 70% compared to earlier bipolar-based models like the 370/138, facilitating more compact designs suitable for smaller installations.^[36]^[37] A key advancement in the series, particularly the 4381 model, was the introduction of multi-chip modules (MCMs), which packaged up to 36 high-speed bipolar and array chips on 64mm ceramic substrates for enhanced density and reduced signal propagation delays. These MCMs, developed at IBM's East Fishkill facility, reduced the packaging hierarchy from four levels in the 4341 to three, contributing to cost reductions through efficient fabrication and scalability in production.^[33] The East Fishkill site's advanced semiconductor processes supported the 4300's overall yield improvements and lower per-unit costs by leveraging high-volume MOS chip manufacturing.^[33] The High-Accuracy Arithmetic Facility, implemented as the ACRITH subroutine library, provided high-accuracy floating-point arithmetic in hexadecimal format for engineering and scientific computations, supporting short (24-bit fraction) and long (56-bit fraction) precision operations with direct rounding to ensure no floating-point number lies between the rounded and exact results. This facility extended beyond standard System/370 floating-point capabilities for applications requiring high numerical reliability.^[38]^[39] Peripherals in the 4300 series incorporated innovations for interactive computing, such as support for the APL programming language through dedicated features like the 1120 APL/Text printer and compatible keyboards on the 3278 display console, facilitating direct entry of mathematical symbols without overstrike. Cooling systems simplified deployment with air-based impingement methods using room-temperature airflow and heat sinks, eliminating the need for water cooling or raised floors required in high-end System/370 models.^[40]^[33] Reliability enhancements included single-bit error correction with double-bit detection in memory, parity checking across components, and a dedicated Support Processor for real-time diagnostics and automatic fault isolation, resulting in high user-rated system uptime. Mean time between failures (MTBF) saw substantial improvements over prior generations due to these features and rigorous burn-in testing, with user surveys reporting 98% "excellent" or "good" reliability ratings.^[40]^[33] The modular architecture allowed field upgrades, such as converting a 4361 Model Group 3 to Group 4 or 5 via plug-compatible components, minimizing downtime and extending system life without full replacement.^[40] In terms of broader technology, the 4300 series' multichannel architecture, supporting up to six block multiplexer channels with aggregate rates exceeding 9 MB/s, served as a precursor to the IBM 3090's integrated channel subsystem by introducing scalable I/O configurations that balanced commercial and scientific workloads.^[36]^[41]

Market Impact and Successors

The IBM 4300 series exerted a profound influence on the electronic data processing industry following its January 1979 announcement, establishing new benchmarks for price-to-performance ratios that compelled competitors to accelerate product development cycles and implement price reductions across their portfolios.^[12] This disruption extended to the minicomputer segment, where the series served as IBM's strategic counter to Digital Equipment Corporation's VAX line, though its partial compatibility with existing mainframes and internal design trade-offs limited broader market penetration against more agile rivals.^[42] By offering scalable, System/370-compatible processors at costs significantly below traditional mainframes—leveraging advanced memory technology priced at roughly one-sixth that of the System/370—the 4300 facilitated a shift toward distributed data processing, rendering in-house computing more economically viable than reliance on commercial time-sharing services for many mid-sized organizations.^[43] This transition not only pressured third-party service providers but also redirected revenue streams within IBM from external computing services toward direct hardware and internal installations. The series' market penetration was substantial, with over 10,000 systems installed worldwide by early 1981, enabling thousands of enterprises to consolidate computing resources and reduce dependency on outsourced processing.^[1] It intensified competition in the midsize systems arena, contributing to the demise of ventures like Itel Corporation's plug-compatible manufacturing efforts by undercutting their viability through superior integration and pricing flexibility.^[12] Although the 4300 outperformed contemporaries like the DEC PDP-11 and early VAX models in raw processing capacity and architectural maturity, its emphasis on reliability and mainframe-like features appealed primarily to IBM-centric environments rather than the broader engineering and scientific user base dominated by DEC.^[44] The 4300 series paved the way for subsequent IBM midrange systems, evolving directly into the 9370 family announced in 1986, which refined the compact, office-oriented design for enhanced performance while preserving backward compatibility with 4300 software and peripherals.^[45] IBM facilitated upgrades through trade-in programs that allowed 4300 users to transition to 9370 or later 4381 models with minimal disruption, emphasizing continuity in the System/370 ecosystem.^[45] The 4381 variants, in particular, bridged the gap to the 370-XA architecture, incorporating extended addressing and improved I/O capabilities to support growing enterprise demands. By 1990, the ES/9000 lineup succeeded the ES/9370 and ES/4381 lines, introducing System/390 compatibility, denser chip integration, and ESCON I/O for a seamless evolution toward modern mainframe standards.^[46] Production of 4300 models tapered off in the late 1980s, with several groups—including the 4381 Models 21 through 24—withdrawn from marketing by August 1992 as focus shifted to XA and System/390 platforms.^[47]

References

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[PDF] IBM 4300 Series - Bitsavers.org
All four of the 4300 Series processors share these com- mon features: the System/370 Universal Instruction Set, channels with virtual storage addressing, CE ...Missing: history | Show results with:history
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[PDF] IBM 4300 Series
The 4321 and 4331 processors will be withdrawn from marketing effective December 31, 1984. Thus, the 4361 processors now represent the low end of the 4300 ...
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[PDF] A Guide to the IBM 4381 Processor - Bitsavers.org
Information about the currently available 4381 model groups (11, 12, 13, and 14) and the withdrawn model groups (1, 2, and 3) is given in this guide. Preface ...
[4]
[PDF] IBM 4300 Series - Bitsavers.org
VM/370 RELEASE 6: Announced with the 4300 Series computers in January 1979, this release of IBM's Virtual. Machine Facility/370 (VM/370) is an operating ...
[5]
[PDF] Chapter 52 Machines That Span a Wide Performance Range
In January1979 the models 4331 and 4341 were announced, thus launching the 4300 series. The series is implemented with IBM's bipolar gate arrays, with up to ...
[6]
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[7]
[PDF] IBM Mainframes – 45+ Years of Evolution
Jan 29, 2009 · An AP model of the 3033 was made available in 1980. 4. The 4321 was a half speed model of the 4331-2 made available only in the US. 5. The 4381- ...Missing: date | Show results with:date
[8]
[PDF] IBM 4381 Series
Oct 2, 1987 · The new 9370 line first an- nounced in October 1986 apparently replaces the old 4361 line. In the operating system software area, in June IBM.
[9]
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[10]
[PDF] IBM 4300 Series Product Enhancement - Bitsavers.org
The cost of one megabyte of main memory is lower on the new VAX machine than on the new IBM model. Depending on the amount of memory increments pur- chased ...
[11]
[PDF] IB M 4300 Processors Principles of Operation for ECPS: VSE Mode
... Compatibility Between 4300 Processors and System/370 1-2. Control-Program Compatibility 1-2. Problem-State Compatibility 1-2. The IBM 4300 Processors. The IBM ...
[12]
[PDF] IBM 4300 Series - Your.Org
Jan 30, 1979 · All three of the 4300 Series processors share these com- mon features: the System/370 Universal Instruction Set, channels with virtual storage ...
[13]
[PDF] IBM 4300 Series - Bitsavers.org
Date of first delivery. Dec. 1984. 2nd quarter 1984. 1 st quarter 1984. May 1986 ... IBM announced the new 4381 machines with- out supplying MIPS ratings ...
[14]
[PDF] Introduction to IBM 4300 and DOS/VSE Facilities Student Text
System/370 mode. Virtual storage paging provides the capability to execute a program without having to have the entire program in real storage. In addition ...
[15]
1979: Thin-film heads introduced for large disks | The Storage Engine
The small physical size of the 3370 slider allowed the flying height above the disk to be reduced by nearly 30% from the Winchester design, from 18 down to 13 ...
[16]
[PDF] IBM 4300 Series - Bitsavers.org
Since its introduction in January 1979, the 4300 Series has grown to include seven model groups. The 4300 Series initially consisted of two central ...
[17]
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[18]
[PDF] IBM 4300 Series
Since its introduction in January 1979, the 4300 Series has grown to include seven model groups. The 4300. Series initially consisted of two central ...Missing: history | Show results with:history
[19]
[PDF] IBM 4300 Series
In addition, the following features are standard on all 4300 Series systems: store and fetch storage protection, byte-oriented operands, clock comparator and ...Missing: history | Show results with:history
[20]
https://bitsavers.trailing-edge.com/pdf/datapro/datapro_reports_70s-90s/IBM/70C-504MK-30_8508_IBM_4300.pdf
[21]
[PDF] Bollerwagen mit Dynamo Erlebte Industrie - FITG Deutsch
Nov 23, 2011 · Announced January 30, 1979 and withdrawn November 18, 1981. The ... The IBM 4331 Processor announced today features advanced large-scale in-.<|separator|>
[22]
IBM 4300 - Wikipedia
The IBM 4300 series are mid-range systems compatible with System/370 that were sold from 1979 through 1992. They featured modest electrical and cooling ...Missing: key | Show results with:key
[23]
https://ftpmirror.your.org/pub/misc/bitsavers/pdf/datapro/datapro_reports_70s-90s/IBM/70C-491-08_8007_IBM_4300.pdf
[24]
[PDF] IBM 4331 Processor - Bitsavers.org
Check the 4331's credentials: a virtual storage processor with up to four million bytes of low-cost main memory ... internal speeds that rival larger systems...
[25]
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[26]
[PDF] A Guide to the IBM 4341 Processor GC20-1877-0 - vtda.org
The 4341 Processor is an intermediate~scale, general purpose processor. It is one of the IBM 4300 Processors and is compatible with the 4331 Processor. The ...
[27]
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[28]
[PDF] 4361 - Models 4 and 5
Up to 3 times performance compared to a 4331-2 for commercial applications and ... ACRITH high arithmetic facility. DASD compatibility function. Optional ...
[29]
[PDF] IBM 4300 Series - Bitsavers.org
The 4300 Series processors support most peripheral devices supported by IBM's System/370 and 303X, 308X, and 3090 Series computers. Those devices include ...
[30]
[PDF] IBM 4300 Series - Index of /
Model P1 features 80/120 Ipm line printer. Terminal. 3776 Communication. Nonprogrammable batch keyboard/printer terminal. Features 160-300 Ipm printer (Models 1.Missing: history - | Show results with:history -
[31]
[PDF] IBM 4381 Series
allows a choice of two operating modes: S/370, with its. 24-bit addressing base, and XA, with its 31-bit addressing base. Operating modes set at Initial ...
[32]
What was the typical amount of disk storage for a mainframe ...
Sep 6, 2024 · Marburg University in Germany has put the complete configuration of their IBM 4381 as of Dec 31, 1987 online. ... withdrawn in 1992 with the 4381 ...
[33]
[PDF] IBM'S 4381 PROCESSOR FAMILY - Bitsavers.org
Dec 17, 2016 · These new chips allow the IBM 4381 Model Groups 2 and. 3 to double memory size to thirty-two megabytes with no increase in storage space ...
[34]
[PDF] zSY0455 50 Years of z/VSE – Still Going Strong - IBM
In the most important product announcement in company history to date, IBM ... 4321, 4331, 4341, and 4361 systems. ▫ Designed for ease of installation ...
[35]
[PDF] IBM 4300 Series
Direct Access Storage; 819.7 megabytes per unit. Model A 1; contains logic and power for up to three Model 81 units. Model 81; connects to a 3375 Model A 1.Missing: total | Show results with:total
[36]
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[37]
A Brief History of the MOS transistor, Part 4: IBM Research ...
Apr 17, 2023 · IBM's bipolar transistor problem was one of reliability. Some of the transistors in its SLT devices would fail due to electrical leakage, and ...
[38]
[PDF] ACRITH - High-Accuracy Arithmetic - TUHH
The High-Accuracy Arithmetic Subroutine Library (ACRITH) is a program product for engineering / scientific application. It consists of a sub- routine library ...Missing: 4300 OS
[39]
http://bitsavers.org/pdf/datapro/datapro_reports_70s-90s/IBM/M11-491-10_8605_IBM_4300.pdf
[40]
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[41]
What is an air motion device in an IBM 4361 mainframe? - Facebook
Jun 14, 2024 · It was the most popular member of the 4300 series family. The 4341 was a powerful air-cooled mainframe that did not require raised floors or ...
[42]
[PDF] The IBM 3090 Processor Family A Balance of Technology and Design
Dec 17, 2016 · High-speed logic, microprocessor and array chips are packaged on channel cards which can be easily added to expand your system. The 3090 system ...<|separator|>
[43]
[PDF] Schumpeterian competition and diseconomies of scope
IBM emphasis on product design responding to customer concerns rather than to technologists' concerns and IBM's fabulous field support for customers gave it ...
[44]
An Analysis of the Impact of Distributed Data Processing on ...
IBM's 8100 series of minicomputers and. 4300 series of midsized computers employ advanced main memory technology which costs one-sixth the price of the ...
[45]
[PDF] Investment Research: Digital Equipment Corporation; 1987
IBM's maximum performance out of its 4300 series was higher than that of DEC's, and its products were considerably newer. As we show in Figure 2, in mid-1986 ...
[46]
IBM OFFERS LIMITED TERM TRADE-IN ON OLD 4300s FOR ...
May 8, 1988 · To make the migration even more painless, IBM will from July 15 also offer customers ordering a 9370 a Software Preload Service: the customer ...
[47]
[PDF] The IBM Enterprise System/9000 - Bitsavers.org
Dec 17, 2016 · The ES/9000 family's 18 models - successors to the proven IBM Enterprise System families ES/9370,. ES/4381, and ES/3090* - provide a solid ...Missing: 4300 | Show results with:4300
[48]
http://bitsavers.trailing-edge.com/pdf/datapro/datapro_reports_70s-90s/IBM/70C-504MK-30_8508_IBM_4300.pdf