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微米 continues to lead in 内存 innovation for high-end 和 flagship phones 和 today has announced the world’s first 176-layer mobile UFS 3.1 .沙巴体育结算平台批量出货. 此外,更新 uMCP5 沙巴体育结算平台, a UFS-based multichip package with low-power DDR5 (LPDDR5) DRAM, 现在准备好参加资格赛了吗. 早些时候宣布, 176层NAND技术 is the world’s most technologically advanced flash 内存 with industry-leading density.
\r\n"}}' id="text-aa5d7ff796">A wave of innovation is already starting to hit our shores. 这一波是支持5g的智能手机. We can only begin to fathom the new user experiences that this torrent of 5克创新 将会带来.
But a new way of thinking is required to converge mobile, 5G 和 artificial intelligence (AI) technologies. We need a holistic approach where higher 内存 b和width 和 capacity combine with lower latency 和 lower power.
微米的 移动存储器和存储器 leadership makes it possible to unleash the full potential of 5G experiences. We were first to mass 沙巴体育结算平台ion in LPDDR5 和 first to market with uMCP5 technology for 5G, 和 we continue to enable OEMs to take full advantage of 5G download speeds of 1 Gbps or faster to unlock the power in their advanced processing engines.
微米 continues to lead in 内存 innovation for high-end 和 flagship phones 和 today has announced the world’s first 176-layer mobile UFS 3.1 .沙巴体育结算平台批量出货. 此外,更新 uMCP5 沙巴体育结算平台, a UFS-based multichip package with low-power DDR5 (LPDDR5) DRAM, 现在准备好参加资格赛了吗. 早些时候宣布, 176层NAND技术 is the world’s most technologically advanced flash 内存 with industry-leading density.
具有更高的带宽, lower latency 和 greater power efficiency, new 176-layer 3D NAND helps smartphone designers produce a more responsive mobile experience with true multitasking across apps, all powered on a single battery charge. Can technology deliver the mobile experiences that consumers want? 当然了,我告诉你怎么做.
\r\n更快的下载和应用程序启动
\r\n利用5G连接, AI-enabled mobile applications are unlocking new user experiences that are richer 和 more immersive than ever before. 消费者s expect these experiences to run as smoothly 和 quickly as the simplest smartphone tasks. 智能手机提供节目和歌曲, connect users with friends 和 family through social networks, 和 capture life’s most precious moments. Immersion is part of the desired smartphone experience, 和 the expectation is that instantaneous action follows intent.
\r\nBut emerging AI-driven technologies — like computational photography, 4K/8K视频采集和流媒体, mixed reality (AR/VR) 和 console-like cloud gaming — all require fast 内存 to quickly save 和 open downloaded files 和 launch applications. These use cases are fueled by massive amounts of 5G data generated 和 processed by AI-powered applications.
\r\n随着5G的普及, 移动存储器和存储器 performance must also scale to keep up with fast data download speeds. 美光的176层移动UFS 3.1 storage device enables quick downloads with faster app launching, multitasking 和 switching for seamless mobile experiences. 消费者s can take advantage of 5G’s peak data rates, 高达20gbps, with a 15% faster mixed workload performance 和 35% or more improved read/write latency. This new 176-layer NAND dramatically accelerates application performance with up to 75% faster sequential write times compared with 微米的 previous generation of high-volume 3D NAND.1
\r\nIn the real world, a user could download a 10-minute 4K (2160p) YouTube video stream in 0.7 seconds or a two-hour 4K movie in about 9.3 seconds, which is much faster than current 5G speeds.2
\r\n微米 176-layer NAND also enhances the quality of service (QoS), with around 10% shorter latency for faster app launching 和 switching compared to previous generation NAND. It also delivers up to two times more total bytes written (TBW) for improved component stability 和 longevity.
\r\n由美光移动技术实现
\r\nThrough 微米的 application of 176-layer NAND as a UFS 3.1解决方案, we are making more responsive mobile experiences possible for users, with true multitasking across applications. This storage solution joins our mobile portfolio, along with new LPDDR5 和 1αLPDDR4X 内存 solutions, to help drive the next wave of 5G- 和 AI-enabled smartphones.
\r\n了解更多
\r\nExciting times 和 a new way of thinking about smartphone technology! For more information, find us online at 微米.com/mobile 并在Twitter上关注我们 @微米Tech 和 LinkedIn.
\r\n"}}' id="text-7204210c88">美光的176层UFS 3.1 .移动沙巴体育结算平台.
具有更高的带宽, lower latency 和 greater power efficiency, new 176-layer 3D NAND helps smartphone designers produce a more responsive mobile experience with true multitasking across apps, all powered on a single battery charge. Can technology deliver the mobile experiences that consumers want? 当然了,我告诉你怎么做.
更快的下载和应用程序启动
利用5G连接, AI-enabled mobile applications are unlocking new user experiences that are richer 和 more immersive than ever before. 消费者s expect these experiences to run as smoothly 和 quickly as the simplest smartphone tasks. 智能手机提供节目和歌曲, connect users with friends 和 family through social networks, 和 capture life’s most precious moments. Immersion is part of the desired smartphone experience, 和 the expectation is that instantaneous action follows intent.
But emerging AI-driven technologies — like computational photography, 4K/8K视频采集和流媒体, mixed reality (AR/VR) 和 console-like cloud gaming — all require fast 内存 to quickly save 和 open downloaded files 和 launch applications. These use cases are fueled by massive amounts of 5G data generated 和 processed by AI-powered applications.
随着5G的普及, 移动存储器和存储器 performance must also scale to keep up with fast data download speeds. 美光的176层移动UFS 3.1 storage device enables quick downloads with faster app launching, multitasking 和 switching for seamless mobile experiences. 消费者s can take advantage of 5G’s peak data rates, 高达20gbps, with a 15% faster mixed workload performance 和 35% or more improved read/write latency. This new 176-layer NAND dramatically accelerates application performance with up to 75% faster sequential write times compared with 微米的 previous generation of high-volume 3D NAND.1
In the real world, a user could download a 10-minute 4K (2160p) YouTube video stream in 0.7 seconds or a two-hour 4K movie in about 9.3 seconds, which is much faster than current 5G speeds.2
微米 176-layer NAND also enhances the quality of service (QoS), with around 10% shorter latency for faster app launching 和 switching compared to previous generation NAND. It also delivers up to two times more total bytes written (TBW) for improved component stability 和 longevity.
由美光移动技术实现
Through 微米的 application of 176-layer NAND as a UFS 3.1解决方案, we are making more responsive mobile experiences possible for users, with true multitasking across applications. This storage solution joins our mobile portfolio, along with new LPDDR5 和 1αLPDDR4X 内存 solutions, to help drive the next wave of 5G- 和 AI-enabled smartphones.
了解更多
Exciting times 和 a new way of thinking about smartphone technology! For more information, find us online at 微米.com/mobile 并在Twitter上关注我们 @微米Tech 和 LinkedIn.
1. Comparisons are based on 微米的 previous-generation UFS 3.1, which uses floating-gate 96-layer NAND.
2. Times given estimate real-world use 和 are calculated using 256GB density specs 和 7GB file size per hour of 4K video. 176层UFS.1 is 15% faster than our previous-generation UFS 3.1, which uses floating-gate 96-layer NAND.
3. Comparison are based on 微米的 previous-generation UFS3.1, which uses floating-gate 96-layer NAND. Test cases include boot time 和 image loading.