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Yogesh Singh
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Yogesh Singh

Executive Editor, TV9 Bharatvarsh

AS SEEN ON
Nature Portfolio

Preston's Summary

Yogesh Singh is an Executive Editor at TV9 Bharatvarsh. He specializes in technology and automobile news, aiming to present information in an accessible language for his audience. Yogesh's work has been featured in BMC, Nature Portfolio, Cureus Journal of Medical Science, Dainik Jagran, arXiv, and Law.asia (Vantage Asia Publishing Limited).

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Geo Focus

India (National)

Coverage Attributes:

Beta
Cites Data: 33 %
Data Driven: 33 %
Informative: 33 %

Themes Covered:

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Most Recent Topics:

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Pitching Insights

Yogesh Singh’s coverage predominantly focuses on product promotions and scientific developments in the technology sector. His articles often include press releases, private sector announcements, and data citations related to tech products.

If you are reaching out to Yogesh Singh, consider offering insights or access to exclusive information related to new product launches, technological advancements, or industry trends within the tech space. Additionally, if your company is making a significant announcement or releasing a new product that aligns with his coverage focus, he may be interested in receiving relevant press releases or statements.

While specific geographic focus isn't mentioned for this journalist's work, it appears that their reporting spans internationally given the nature of topics covered.

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Articles

Nature Portfolio

Energy-efficient cryogenic ternary content addressable memory using ferroelectric SQUID - npj Unconventional Computing

Energy-efficient cryogenic ternary content addressable memory using ferroelectric SQUID - npj Unconventional Computing

By: Yogesh Singh, Shivendra Singh

Content-addressable memories (CAMs) are well-suited for certain computing tasks since they can search through a whole dataset in a single cycle, which makes them suitable for cryogenic applications like quantum computing and deep space exploration. This work presents a cryogenic ternary CAM (TCAM) based on ferroelectric superconducting quantum interference devices (FeSQUIDs). FeSQUID-based TCAM provides binary decisions (zero or non-zero voltage) for matching and mismatching conditions and achieves exceptional energy efficiency—consuming only 1.36 aJ and 26.5 aJ for 1-bit binary and ternary searches, respectively. To demonstrate its system-level potential, we integrate the TCAM into a brain-inspired hyperdimensional computing (HDC) framework, where it performs associative memory tasks during inference. For a vector size of 10,000 bits, the total energy consumption is estimated at just 89.4 fJ per vector. Compared to a 5 nm FinFET SRAM-based TCAM, the FeSQUID-based design achieves over an order of magnitude reduction in energy consumption.

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