updated March 18, 2002

row #

0000111100000000 0F00 1

0001111110000000 1F80 2

0011111111000000 3FC0 3

0111000011100000 70E0 4

0110000001100000 6060 5

1100000000110000 C030 6

1100000000110000 C030 7

1100000000110000 C030 8

1100000000110000 C030 9

1100000000110000 C030 10

1100000000110000 C030 11

1100000000110000 C030 12

1111111111110000 FFF0 13

1111111111110000 FFF0 14

1100000000110000 C030 15

1100000000110000 C030 16

1100000000110000 C030 17

1100000000110000 C030 18

1100000000110000 C030 19

1100000000110000 C030 20

1100000000110000 C030 21

1100000000110000 C030 22

0000000000000000 0000 23

0000000000000000 0000 24

0000000000000000 0000 25

0000000000000000 0000 26

0000000000000000 0000 27

0000000000000000 0000 28

0000000000000000 0000 29

0000000000000000 0000 30

0000000000000000 0000 31

0000000000000000 0000 32

Figure 42. Proportional Font Example

Impact Code Page

You define the character matrix for each code page with MCT #4 for impact code page 1 and MCT #5 for impact code page 2. See Table 15 on page 123.

If the matrix defines the characters as 9 dots high or less, a print line will be printed in one pass of the printhead. When the matrix is defined as greater than 9 dots high, it takes two passes of the printhead per print line.

Landscape printing is limited to characters with a height of 9 dots or less. If user-defined characters are to be used in landscape print mode, they must be less than 10 dots high.

The number of data bytes per character loaded is 2 × character width. The total number of data bytes for this command is 2 × character width × (1+m−n). Each slice is defined with two bytes; the most significant bit (MSB) of each slice is the bottom of the character.

When defining wire patterns, the same wire does not fire in consecutive, primary (P) and secondary (S) positions. (The printer does not check for errors in defining the character.) If the character is defined with dots in consecutive positions only one of the dots is fired.)

116SureMark DBCS User’s Guide

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Image 140
IBM TM7, TI5, TF7, TG5 manual Impact Code, Proportional Font Example

TI5, TG5, TM7, TF7 specifications

IBM has long been a pioneer in the field of technology and enterprise solutions, consistently delivering innovations that redefine industry standards. In line with this tradition, IBM has unveiled its latest offerings: TF7, TM7, TG5, and TI5. Each of these models is designed to cater to specific needs within the growing arena of data processing and management.

The TF7 system stands out for its remarkable performance and efficiency in managing large datasets. It harnesses AI-driven analytics to provide insights at unprecedented speeds. The architecture is built on IBM’s Power10 technology, which enhances computational power while reducing energy consumption. This model supports a hybrid cloud strategy, making it versatile for organizations looking to integrate on-premise capacities with cloud solutions seamlessly.

On the other hand, the TM7 is geared towards transactional workloads, particularly in industries that demand high availability. With its robust security features and built-in redundancy, the TM7 ensures that transactions are processed reliably even in high-stress scenarios. Moreover, the system employs advanced encryption protocols that safeguard sensitive information, making it an ideal choice for financial institutions handling vast amounts of transactions.

For businesses that prioritize graphics-intensive applications, the TG5 is a game-changer. It comes equipped with powerful GPUs, offering lightning-fast rendering and superior graphic capabilities. The TG5 leverages AI tools for enhanced visualization and modeling, making it suitable for sectors like gaming, animation, and scientific simulations. Its modular architecture allows easy upgrades, enabling users to stay ahead in a rapidly evolving technological landscape.

Lastly, the TI5 model excels in delivering high-velocity data processing. It features IBM’s latest quantum-safe cryptography, ensuring long-term data protection against evolving threats. The TI5 is optimized for Internet of Things (IoT) applications, allowing organizations to process and analyze real-time data from connected devices swiftly. Its scalability makes it perfect for businesses looking to expand their IoT footprint without compromising performance.

In conclusion, IBM’s TF7, TM7, TG5, and TI5 systems exemplify cutting-edge technology tailored to meet diverse industry needs. Each model integrates robust features, advanced security measures, and efficient processing capabilities, ensuring organizations can thrive in an ever-changing digital landscape. Whether for data management, transaction processing, graphics rendering, or IoT applications, these solutions pave the way for a more connected, efficient, and secure future.