If you want to meet often, welcome to collect stars ~
Source: Content compiled from scitechDaily, thank you.A new study shows that the use of "chaos edge" can greatly simplify the electronic chip.Reduce power consumption.
Researchers have discovered how "Chaos Edge" helps to overcome signal loss by electronic chips, so that the chip becomes simpler and more efficient.
By using the metal wire on the semi -stable material, this method can make the long metal line play a role like a superconductor and amplify the signal.It is possible to change the chip design.
Use Chaos edge technology to innovate chip design
After the toes are hit, the pain signal will be immediately passed through a few meters.The long axis is transmitted to the brain, and these axles are composed of high -resistance meat materials.These axis uses the principle of "chaos edge" or semi -stability, which can quickly and accurately transmit information.
This research shows the role of chaos edges in the artificial system through inorganic materials.Usually, the edge of chaos will magnify the noise.However, it is surprising that the metal line placed on the top of the chaos edge material not only transmits useful signals, but also enlarges useful signals.This method effectively offsets the metal resistance loss that usually reduces signal integrity.
Modern electronic chips consist of many components and a large number of metal wires (called interconnection).These metal cables cause severe resistance signal losses, thereby seriously consumed the power of the chip.Traditional solutions are to divide these lines into shorter line segments and add transistors to enhance signals that weaken and weaken relay.
This innovative method does not require a transistor amplifier, so that the long metal wire can not only achieve superconducting zero resistance, but also enhance small signals.This progress can fundamentally simplify chip design and greatly improve efficiency.
Metal wires on the chaos edge bias medium can provide effective negative resistance to the time change signal, and the output is larger than the input signal.The magnifying energy comes from static bias applied to the medium.Image source: Brown, TD, REMIND, active signal transmission similar to axis."Nature" (2024).
Promote electronic product signal transmission
As the metal itself has resistance, the electrical signal transmitted by metal conductor willWeaken intensity.To make up for this defect, the traditional method needs to repeatedly interrupt the conductor to insert the amplifier that inserts the renewable signal.This technology has been used for more than a century, limiting the design and performance of modern dense interconnected chips.In contrast, this research introduces a new method based on the use of semi -stable chaos edge (EOC). This is a mechanism that scientists have theoreticalization but have never proven before.This mechanism supports the active signal transmission similar to the self -enlarged signal seen in biological axons.
Use the chaotic semi -stable edge to achieve high -efficiency electronic equipment
In the spin cross, researchers are separated from the semi -stable EOC, and negative resistance and signal amplification are caused in the metal transmission line without a separate amplifier, and the temperature and pressure are normal.OpenDo hot diagram shows that the energy used to maintain EOC is not completely lost in the form of heat, but is partially reorganized to amplify the signal, so as to achieve continuous active transmission and may completely change the chip design and performance.
https://scitechDaiLY.com/next-gen-Electronics-breakthrough-Harnessing-thedge-CHAOS-HIGH-HIGH-PERFORMANCE-EFFI CIENT-MICROCHIPS/
Recommendation of semiconductor boutique public account
Focus on more original content in the semiconductor field
Follow the global semiconductor industry movement and trend
*Disclaimer: This article was originally created by the author.The content of the article is the authors personal point of view. The semiconductor industry observation and reprinting is only to convey a different view, which does not mean that the semiconductor industry observation agrees or supports this view. If there are any objections, please contact the semiconductor industry to observe.
Today is the 3922 content shared by "Semiconductor Industry Observation" for you. Welcome to follow.
"Semiconductor First Vertical Media"
Real -time professional original depth
Public account ID: icbank
If you like us>
