IBM 1000-90 manual LI-1400 DataLogger, LI-1200S Minimum Data Set Recorder

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The data dump can be aborted by pressing the OUT key again.

LI-1400 DataLogger

The LI-1400 is configured as a DTE device. Most computers can be connected to the LI-1400 using the 1400-550 printer cable. To send files from the LI-1400 to a computer, follow these steps:

1.Use the Setup Hardware menu to set the Printing baud rate to 9600.

2.Use the Setup Logging menu to make sure that Auto Print=No.

3.Press the Fct key.

4.Press the right or left arrow key until 'Print Memory' is displayed. Press Enter.

5.Press the right or left arrow key until 'Print=All' is displayed.

6.Press the down arrow key several times until !Print Mem! is displayed. Press Enter. The data will be sent.

LI-1200S Minimum Data Set Recorder

The LI-1200S is configured as a DTE device. Most computers can be connected to the LI-1200S using the 1000-03 printer cable and a female-to-female gender changer. To send files from the LI-1200S to a computer, follow these steps:

1.Press OUT to enter Output Mode.

2.Choose baud rate (300 or 4800).

3.Press ENTER to begin data transmission.

8 COMM.EXE

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Contents 1000-90 Communication and Utility Software for LI-COR Instruments LI-COR Software Product Program Files General InformationDocumentation Files Softkeys COMM.EXEAlt LI-1000 DataLogger LAI-2000Plant Canopy AnalyzerLI-1200S Minimum Data Set Recorder LI-1400 DataLoggerLI-1600 Steady State Porometer LI-3000A Portable Area MeterLI-6200 Portable Photosynthesis System LI-1800 UW Portable SpectroradiometersLI-6252 & LI-6262 Gas Analyzers LI-6400 Portable Photosynthesis SystemC20 Cassette Reader Cables On Connector Short these pins Communications Parameters EQUIP.EXEEQUIP.EXE Dest. File LI-1000 Data Source FileReformat source file destination LI-1600 Data General Information R1600.EXE20 R1600.EXE

1000-90 specifications

The IBM 1000-90, released in the late 1980s, stands as a significant milestone in the evolution of computing. Known for its robust architecture and innovative technologies, the 1000-90 epitomized IBM's commitment to delivering high-performance computing solutions for businesses and organizations.

At its core, the IBM 1000-90 was built on a powerful RISC (Reduced Instruction Set Computing) architecture, which allowed it to execute instructions at impressive speeds compared to traditional CISC (Complex Instruction Set Computing) systems. This architecture emphasized efficiency, utilizing simpler instructions that could be executed rapidly, thereby improving overall processing times. The 1000-90 was engineered for multitasking, capable of handling multiple applications simultaneously without compromising performance.

One of the standout features of the 1000-90 was its advanced memory management system. It utilized a hierarchical memory structure, ensuring that frequently accessed data was stored closer to the CPU for rapid retrieval. This design minimized latency and enhanced the responsiveness of applications. The system supported extensive RAM configurations, allowing organizations to tailor the system to their performance needs.

Another notable characteristic of the IBM 1000-90 was its scalability. Tailored to suit different enterprise requirements, it could be configured with a variety of peripheral devices and storage solutions. Users could easily expand memory and storage capacities, making the 1000-90 an adaptable solution for growing companies.

Networking capabilities were also a focal point, as the IBM 1000-90 supported various protocols, enabling seamless integration into existing corporate infrastructures. This allowed businesses to leverage their investment in technology while enhancing collaboration and information sharing.

The operating system of the IBM 1000-90 leveraged IBM's renowned software portfolio, providing a stable and secure environment for business applications. This platform allowed for the integration of essential applications, ranging from inventory management systems to complex databases.

In summary, the IBM 1000-90 was a pioneering machine that combined RISC architecture, advanced memory management, scalability, and robust networking capabilities, making it invaluable for organizations striving for efficiency and innovation in computing. Its legacy continues to influence modern computing technologies, reinforcing IBM's longstanding role as a leader in the tech industry.