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@alisaaakuz: #fyp #рекомендации #батя #fatheraesthetic #recommendations

alisaaakuz
alisaaakuz
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Region: DE
Thursday 14 August 2025 07:43:19 GMT
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Comments

hortensia_012
horta 💫 :
меня выносит с того что мама с дочерью сидят умиляютмя до слез, а батя такой: ЩА КАК ПЕРЕЕДЕМ МЕЛКОГО, И ШАШЛЫК ДОМА БУДЕТ, КААААЙФ😂😂😂
2025-08-26 09:02:45
2706
katuser04
katuser..@ :
ТАК ЕЩЕ СМЕШНЕЕ БОЖЕ
2025-08-14 08:26:56
2899
ggg__566
𝚅𝚒𝚌𝚝𝚘𝚛𝚒𝚊 :
чисто все умиляються, один отец ЗАКИДЫВАЙТЕ МНЕ В БАГАЖНИИИИК
2025-08-27 09:43:49
655
kvetiapins
pidoraZZZZZZZOV :
бігає по полю весело кабанчик
2025-08-25 09:00:43
93
william04.y
𒉭Сасная тянка Уильяма𒉭༒ :
ЭЭЭ КУДА БЫСТРЕЕ ХВАТАЙТЕ ПОКА ДАЮТ
2025-08-27 08:18:58
56
guapovva
฀฀ :
он у вас испанец?
2025-08-14 23:03:34
745
veronnnclw
veronewf :
БОЖЕ ЭТО ШИКАРНО
2025-08-15 11:10:07
352
xaepy4
lfif :
видела
2025-08-28 06:36:25
0
liz.koo.0
Lizzz💤 :
ХААХАХАЗАЗАХ
2025-08-14 08:02:29
76
sowaasona
rrrrrrrrwwwow^^ :
все в дом
2025-08-21 20:59:36
88
dkbcr85i646em853bz65272v
Dravon_Kravon_3.14(π) 42(∞)🪐➰ :
ХАПХАХАХАХАХАХАХА
2025-08-18 12:04:30
18
sonalox09
чушка :
папа кинн
2025-09-14 18:56:28
1
xkgwyo
🕸️ :
🥰🥰🥰
2025-08-14 07:44:18
12
flansinghhh
polindzqros :
@giorno_giovanna471 куда убегаешь
2025-08-21 12:57:39
0
harringtonmiron
HARITON :
@burning thousands
2025-08-18 19:28:35
2
99_..0
томарка :
@𓆩🇺🇸𓆪
2025-09-17 20:54:29
1
dornin3
DorninFR :
🥰🥰🥰
2025-08-27 00:05:03
1
flowers72220
flowers🌸🌟@ :
@Ник🕶
2025-08-26 07:47:27
1
ulyanaaaa_4
Уля :
🙏
2025-08-18 06:01:06
1
chihuinta228_adolfgitler
чихуИнта :
@HamStore мы в будущем
2025-08-17 19:35:29
1
usernamegodness
damnson :
🤭😭😭
2025-08-16 18:30:30
1
viktoriakxm
V🪽 :
@vika
2025-08-16 04:25:18
1
zlata_xxx_d
Злата :
😍
2025-09-19 19:25:22
0
fofofgf
⌆︎вросший ноготь🍰😂 :
😭😭😭
2025-08-27 23:52:00
0
To see more videos from user @alisaaakuz, please go to the Tikwm homepage.

Other Videos

The document titled
The document titled "Computing for Data-Intensive Applications: Beyond CMOS and Beyond Von-Neumann" by Said Hamdioui, presented at the ESA workshop on Memristive Systems for Space Applications, discusses the limitations of current computing technologies and proposes new paradigms to address these challenges. Here is an overview of its key points: ### Context and Challenges 1. **Technological Limitations**: - **High Cost and Reduced Reliability**: Traditional CMOS scaling is reaching its limits, leading to higher costs and reduced reliability. - **Saturated Clock Speed**: The frequency of microprocessors has plateaued, and increasing it further has become difficult. - **Power Consumption**: Power efficiency improvements are not keeping pace with the demands of modern applications. 2. **Computing Issues**: - **High Energy Consumption**: Especially in data-intensive applications, the energy cost of communication and memory operations dominates. - **Bandwidth Bottlenecks**: There is a significant communication bottleneck due to the traditional von Neumann architecture, which separates memory and computation. - **Complex Programmability**: Modern multi-core processors are difficult to program efficiently due to issues like memory coherency and scheduling. ### Proposed Solutions 1. **Near-Memory Computing**: - Moving computation closer to data to reduce the overhead of data transfer. This model shifts from a computer-centric to a data-centric approach. - Utilizes emerging technologies like 3D stacking to physically integrate memory and processing units. 2. **Computing-In-Memory (CIM) Architecture**: - Integrates storage and computation within the same physical location, significantly reducing communication and memory bottlenecks. - Leverages non-volatile technologies (e.g., memristors) to achieve low leakage and support massive parallelism. - Employs a crossbar architecture, which is scalable and reduces area costs. ### Memristor Technology - **Definition and Advantages**: - A memristor is a resistor with memory, which can be used for both storage and logic functions. It was first proposed by Leon Chua in 1971 and later manufactured by HP in 2008. - Memristors offer low energy consumption, high density, and non-volatility, making them suitable for CIM architectures. - **Potential Applications**: - Memristors can be used in various fields, such as healthcare (e.g., DNA sequencing), where they can significantly speed up data processing compared to conventional architectures. ### Conclusion - **Short Term**: Innovations are needed in manufacturing and testing to deal with the current limitations of CMOS technology. - **Long Term**: New device technologies like memristors and alternative architectures like CIM are essential to overcome the challenges posed by data-intensive applications and the limitations of von Neumann architecture. The document highlights the need for a paradigm shift in computing, focusing on integrating computation and memory to address the increasing demands of data-intensive applications.


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🌎♥️ #earthday #myrtlebeachsafari
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Tiger Cub 🐯🧡 #myrtlebeachsafari




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