hp photosmart 1000 color printer user’s guide

Two-sided printing

When you are printing from your computer and you want to print on both sides of a sheet of paper, use two-sided printing. If you are using the Two-Sided Printing Module, you can set up your computer to automatically print on the second side of a piece of paper. For a list of supported paper types, visit the Web at www.hp.com/photosmart. If you are not using the Two-Sided Printing Module, you can print on the second side of a piece paper manually. See “Manually reloading paper to print the second side” on page 52” for details.

Note: The Two-Sided Printing Module is an optional accessory. For ordering information, visit the Web at www.hpshopping.com.

For information on how to print two-sided documents from a Windows PC, see “Two- sided printing from your Windows PC” on page 47.

For information on how to print two-sided documents from a Macintosh, see “Two-sided printing from your Macintosh” on page 50.

Using the Two-Sided Printing Module (optional)

The Two-Sided Printing Module enables the printer to automatically print on the second side of a piece of paper when you are printing from your computer. Automatic two-sided printing requires three steps:

1.Install the Two-Sided Printing Module. If you need more information, see “Installing the Two-Sided Printing Module (optional)” on page 8.

2. Set up the HP PhotoSmart printer software. See below for details.

3.When you print, select Automatic Two-Sided Printing in the print settings.

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Image 52
HP 1000 manual Two-sided printing, Using the Two-Sided Printing Module optional

1000 specifications

The HP 1000 was a series of minicomputers produced by Hewlett-Packard from the early 1970s through the late 1980s. Originally introduced in 1973, the HP 1000 aimed to provide high-performance computing capabilities within the reach of small to medium-sized businesses and specialized industries. This machine was distinctive not only for its advanced technology but also for the versatility it offered in various applications.

One of the standout features of the HP 1000 was its architecture. The system utilized a 16-bit word size, which allowed for efficient processing and execution of instructions. The HP 1000 employed a unique architecture known as the "Hewlett-Packard 1000 Microprogrammed System," which enabled it to execute a broad range of instructions efficiently. This made the HP 1000 particularly well-suited for data processing applications, scientific calculations, and high-level computing tasks.

The HP 1000 series was fully modular, allowing users to customize and expand their systems as needed. It supported various input/output devices, memory sizes, and even offered options for solid-state disk drives, which were cutting-edge for that time. The system’s modularity not only provided flexibility but also enhanced maintainability, enabling users to swap out components without significant downtime.

Another key aspect of the HP 1000 was its support for a wide range of programming languages, including FORTRAN, COBOL, and BASIC. This made it appealing to a variety of users, from engineers who needed to perform complex calculations to business analysts focused on data management. Additionally, the HP 1000 was designed to run multiple jobs simultaneously, making it a precursor to modern multitasking operating systems.

Networking capabilities were also an essential characteristic of the HP 1000. The system could be connected to various peripherals and terminals, increasing its functionality in a networked environment. This helped businesses leverage the power of shared resources, facilitating collaborative projects and data sharing across departments.

In conclusion, the HP 1000 series played a significant role in the evolution of computing technology. Its modular design, robust architecture, support for multiple programming languages, and networking capabilities made it a versatile tool for a wide range of applications. For over a decade, the HP 1000 series marked an important chapter in the history of computing, laying the groundwork for advancements in minicomputer technology that would follow.