POWER TAP CELL FOR FRONT SIDE POWER RAIL CONNECTION TO BSPDN

Organization Name

International Business Machines Corporation

Inventor(s)

Albert M. Chu of Nashua NH (US)

Nicholas Anthony Lanzillo of Wynantskill NY (US)

Albert M. Young of Fishkill NY (US)

Junli Wang of Slingerlands NY (US)

Brent A. Anderson of Jericho VT (US)

Ruilong Xie of Niskayuna NY (US)

Lawrence A. Clevenger of Saratoga Springs NY (US)

REINALDO Vega of Mahopac NY (US)

POWER TAP CELL FOR FRONT SIDE POWER RAIL CONNECTION TO BSPDN - A simplified explanation of the abstract

This abstract first appeared for US patent application 18062624 titled 'POWER TAP CELL FOR FRONT SIDE POWER RAIL CONNECTION TO BSPDN

The semiconductor structure described in the patent application consists of circuit rows, first power rails on the front sides of the rows, second power rails on the back sides, and power tap cells connecting the power rails.

• The structure includes power tap cells with power vias linking first and second power rails.
• The second power rails are perpendicular to the first power rails.
• The first power rails are horizontally offset from the second power rails.
• The power vias consist of different sized power vias.

Potential Applications: - This semiconductor structure could be used in integrated circuits for various electronic devices. - It could enhance power distribution efficiency in semiconductor devices.

Problems Solved: - Efficient power distribution within semiconductor structures. - Minimizing power losses in integrated circuits.

Benefits: - Improved power distribution efficiency. - Enhanced performance of electronic devices. - Reduction in power consumption.

Commercial Applications: Title: "Efficient Power Distribution in Semiconductor Structures" This technology could find applications in the semiconductor industry for the development of more efficient and high-performance electronic devices. It could be used in the production of smartphones, computers, and other consumer electronics.

Prior Art: Prior research may exist in the field of semiconductor power distribution and integrated circuit design. Researchers can explore existing patents and academic papers related to power tap cells and power rail configurations in semiconductor structures.

Frequently Updated Research: Researchers in the semiconductor industry are constantly working on improving power distribution efficiency in integrated circuits. Stay updated on the latest advancements in power tap cell technology and power rail configurations for semiconductor structures.

Questions about Semiconductor Structures: 1. How does the configuration of power tap cells impact the overall efficiency of power distribution in semiconductor structures? 2. What are the potential challenges in implementing different sized power vias in semiconductor devices?

Original Abstract Submitted

A semiconductor structure is presented having a plurality of circuit rows, a plurality of first power rails positioned on front sides of the plurality of circuit rows, a plurality of second power rails positioned on back sides of the plurality of circuit rows, and power tap cells associated with each the plurality of circuit rows, wherein each of the power tap cells includes one or more power vias connecting at least one first power rail of the plurality of first power rails to at least one second power rail of the plurality the second power rails. In one instance, the plurality of second power rails are orthogonal to the plurality of first power rails. in another instance, the plurality of first power rails are horizontally offset from the plurality of second power rails. The one or more power vias include at least two or more different sized power vias.