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#fudan — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #fudan, aggregated by home.social.

  1. "The small #flashmemory device, which #Fudan University began exploring in 2015, is said to outperform today’s fastest volatile memory (such as SRAM) by a factor of more than 100,000. While SRAM and DRAM offer speed, they are volatile and expensive. On the other hand, flash storage, though persistent, has lagged behind in speed. The researchers’ new approach seeks to bridge that gap, potentially redefining memory and computing architecture."
    #PoX
    lowyat.net/2025/348763/china-f

  2. "The small #flashmemory device, which #Fudan University began exploring in 2015, is said to outperform today’s fastest volatile memory (such as SRAM) by a factor of more than 100,000. While SRAM and DRAM offer speed, they are volatile and expensive. On the other hand, flash storage, though persistent, has lagged behind in speed. The researchers’ new approach seeks to bridge that gap, potentially redefining memory and computing architecture."
    #PoX
    lowyat.net/2025/348763/china-f

  3. "The small #flashmemory device, which #Fudan University began exploring in 2015, is said to outperform today’s fastest volatile memory (such as SRAM) by a factor of more than 100,000. While SRAM and DRAM offer speed, they are volatile and expensive. On the other hand, flash storage, though persistent, has lagged behind in speed. The researchers’ new approach seeks to bridge that gap, potentially redefining memory and computing architecture."
    #PoX
    lowyat.net/2025/348763/china-f

  4. "The small #flashmemory device, which #Fudan University began exploring in 2015, is said to outperform today’s fastest volatile memory (such as SRAM) by a factor of more than 100,000. While SRAM and DRAM offer speed, they are volatile and expensive. On the other hand, flash storage, though persistent, has lagged behind in speed. The researchers’ new approach seeks to bridge that gap, potentially redefining memory and computing architecture."
    #PoX
    lowyat.net/2025/348763/china-f

  5. "The small #flashmemory device, which #Fudan University began exploring in 2015, is said to outperform today’s fastest volatile memory (such as SRAM) by a factor of more than 100,000. While SRAM and DRAM offer speed, they are volatile and expensive. On the other hand, flash storage, though persistent, has lagged behind in speed. The researchers’ new approach seeks to bridge that gap, potentially redefining memory and computing architecture."
    #PoX
    lowyat.net/2025/348763/china-f

  6. "Because #PoX is non‑volatile, it retains data with no standby power, a critical property for next‑generation edge AI and battery‑constrained systems. Combining ultra‑low energy with #picosecond write speeds could remove the long‑standing memory bottleneck in AI inference and training hardware, where data shuttling, not arithmetic, now dominates power budgets.
    Industrial and strategic implications:
    #Flashmemory remains a cornerstone of global #semiconductorstrategy thanks to its cost and scalability. #Fudan’s advance, reviewers say, offers a “completely original mechanism” that may disrupt that landscape. "

    interestingengineering.com/inn

  7. "Because #PoX is non‑volatile, it retains data with no standby power, a critical property for next‑generation edge AI and battery‑constrained systems. Combining ultra‑low energy with #picosecond write speeds could remove the long‑standing memory bottleneck in AI inference and training hardware, where data shuttling, not arithmetic, now dominates power budgets.
    Industrial and strategic implications:
    #Flashmemory remains a cornerstone of global #semiconductorstrategy thanks to its cost and scalability. #Fudan’s advance, reviewers say, offers a “completely original mechanism” that may disrupt that landscape. "

    interestingengineering.com/inn

  8. "Because is non‑volatile, it retains data with no standby power, a critical property for next‑generation edge AI and battery‑constrained systems. Combining ultra‑low energy with write speeds could remove the long‑standing memory bottleneck in AI inference and training hardware, where data shuttling, not arithmetic, now dominates power budgets.
    Industrial and strategic implications:
    remains a cornerstone of global thanks to its cost and scalability. ’s advance, reviewers say, offers a “completely original mechanism” that may disrupt that landscape. "

    interestingengineering.com/inn

  9. "Because #PoX is non‑volatile, it retains data with no standby power, a critical property for next‑generation edge AI and battery‑constrained systems. Combining ultra‑low energy with #picosecond write speeds could remove the long‑standing memory bottleneck in AI inference and training hardware, where data shuttling, not arithmetic, now dominates power budgets.
    Industrial and strategic implications:
    #Flashmemory remains a cornerstone of global #semiconductorstrategy thanks to its cost and scalability. #Fudan’s advance, reviewers say, offers a “completely original mechanism” that may disrupt that landscape. "

    interestingengineering.com/inn

  10. Efficient Synthesis of ProTide antivirals: A team from from #Fudan University and #Shanghai Jiao Tong University reporting a copper-catalyzed method for synthesizing chiral phosphates in #JACS.

    This research represents a new tool for the synthesis of ProTide nucleoside analogues, providing an efficient route that can enhance the development of antiviral drugs in future studies.

    doi.org/10.1021/jacs.4c12920

    #MedChem #Antivirals #Research #Science #Chemistry

  11. Efficient Synthesis of ProTide antivirals: A team from from University and Jiao Tong University reporting a copper-catalyzed method for synthesizing chiral phosphates in .

    This research represents a new tool for the synthesis of ProTide nucleoside analogues, providing an efficient route that can enhance the development of antiviral drugs in future studies.

    doi.org/10.1021/jacs.4c12920

  12. Efficient Synthesis of ProTide antivirals: A team from from #Fudan University and #Shanghai Jiao Tong University reporting a copper-catalyzed method for synthesizing chiral phosphates in #JACS.

    This research represents a new tool for the synthesis of ProTide nucleoside analogues, providing an efficient route that can enhance the development of antiviral drugs in future studies.

    doi.org/10.1021/jacs.4c12920

    #MedChem #Antivirals #Research #Science #Chemistry

  13. Efficient Synthesis of ProTide antivirals: A team from from #Fudan University and #Shanghai Jiao Tong University reporting a copper-catalyzed method for synthesizing chiral phosphates in #JACS.

    This research represents a new tool for the synthesis of ProTide nucleoside analogues, providing an efficient route that can enhance the development of antiviral drugs in future studies.

    doi.org/10.1021/jacs.4c12920

    #MedChem #Antivirals #Research #Science #Chemistry

  14. Efficient Synthesis of ProTide antivirals: A team from from #Fudan University and #Shanghai Jiao Tong University reporting a copper-catalyzed method for synthesizing chiral phosphates in #JACS.

    This research represents a new tool for the synthesis of ProTide nucleoside analogues, providing an efficient route that can enhance the development of antiviral drugs in future studies.

    doi.org/10.1021/jacs.4c12920

    #MedChem #Antivirals #Research #Science #Chemistry

  15. #Ozone - a re-occuring issue in #atmochem, re-increasing at many places & a #SLCF
    We are after this in 🇩🇪 with the @[email protected] but also in #China in collaboration w Profs Li Xiang & Chen Jianmin of #Fudan University where I am a Prof as
    well

    @[email protected] paper = academic.oup.com/pnasnexus/art

  16. #Ozone - a re-occuring issue in #atmochem, re-increasing at many places & a #SLCF
    We are after this in 🇩🇪 with the @[email protected] but also in #China in collaboration w Profs Li Xiang & Chen Jianmin of #Fudan University where I am a Prof as
    well

    @[email protected] paper = academic.oup.com/pnasnexus/art

  17. #Ozone - a re-occuring issue in #atmochem, re-increasing at many places & a #SLCF
    We are after this in 🇩🇪 with the @[email protected] but also in #China in collaboration w Profs Li Xiang & Chen Jianmin of #Fudan University where I am a Prof as
    well

    @[email protected] paper = academic.oup.com/pnasnexus/art

  18. #Chine, traduc : "Transféré de Huzhou Laofei, Hier soir à #Shanghai, deux professeurs de l'école de journalisme #Fudan ont affronté la police pour protéger leurs étudiants de l'arrestation.
    #liberté #expression #stand
    mastodon.social/@Tozzola/10941

  19. Thinking of all the awesome scholars and artists from #Fudan University I’ve met throughout my decade in #China. Stand up for what you believe in. twitter.com/RFA_Chinese/status