Did they at least fix what was wrong with Jason? like did Bruce at least fix what he did to Jason? Like im coming to terms with the fact that Jason as a character is now just a prop to serve Bruce whether to make him look good for saving the streetkid from becoming a Evil Criminal, or to give shock value to readers, or to dispense platitudes about the importance of family and how wonderful Bruce.

and that he will never be allowed to be or do anything good unless is in the service of batman in someway, but at least i need to know that Bruce fixed what he did wrong, and that they didnt just forget about that like the other time Bruce was awful to Jason.

I'm not really aware of them even specifically addressing it outside of maybe The Man Who Stopped Laughing, but like. That's kind of the things comics does, all comics I've read will do this at some point or another. They do over the top ridiculous nonsense and those plot threads often get dropped, I don't think we're meant to take them seriously, just like I don't think we're meant to look at Jason and think of him as the guy who shot an 11 year old child straight through the chest and probably right through his spine, and not forgive him for it. Comics are bonkers and I don't think they're meant to be taken with the seriousness we would of these actions in the real world--otherwise, almost ALL of these people have done things that they could never fix, you know? I don't know where your lines in the sand are, I don't know what you're looking to get out of comics, whether you're here for the canon or you're here for the fandom--and none of that is said with any shade, there's a whole wide variety of reasons to be a fan of something. I can't really give advice here because it's something you have to figure out what you want from comics and what you think they're meant to be might be totally different from what I think they're meant to be. And I'm struggling to word all of this, because I can feel how frustrated you are, how I've been there and felt heartsore about the place my faves occupy in canon, like I was and am a Pietro Maximoff fan in the comics, I have intimately known the pain of a character only being an extension of other characters, being written horribly by those who don't care about him, and desperately holding onto that one run where he was written brilliantly even though it was from 20-30 years ago. Versus that that's just the way comics often are, our faves just are not A-list characters, that comics are on a tiered hierarchy and we have to make our peace with that. Not all of the characters we like are the same ones the company likes or the writers like and that sucks. Whether that means walking away from comics (like I did after Marvel threw the X-Men under the bus for the Avengers in AvX, like I've stopped reading Quicksilver comics because my heart couldn't take it anymore) or just reading comics and then turning to fandom to realize the potential that canon never intended, whatever you need to do to make your peace with how comics operate, that's all any of us can do. I don't know if you're just in need of venting or if this is truly a breaking point for you, but it probably is true to some degree that Jason's always going to be written as an extension of Bruce's character, because Bruce Wayne Sells So Many Comics, of course DC is going to make everyone an extension of him, to some degree or another. (Honestly, right now, I think the only Bat escaping that is Dick and even he is still extremely tied to his relationship with Bruce.) Until those characters sell as many comics as Bruce does, I don't see that changing. All we can do is find the moments of something worth having fun with in the meantime, because comics are not a coherent medium, they are messy and tons of stuff is never addressed on-screen because every writer is coming in with their own agenda and it's pure chaos, and in my experience we just have to find joy in the whirlwind of it all.

Stable Diffusion Upscale Pipeline Using PyTorch & Diffusers

Stable Diffusion is a cutting-edge technique that makes use of latent diffusion models to produce high-quality images from textual descriptions. Easy-to-use pipelines for deploying and utilizing the Stable Diffusion model, including creating, editing, and upscaling photos, are provided by the Hugging Face diffusers package.

Best way to upscale Stable Diffusion

We will tell how to use the Stable Diffusion Upscale Pipeline from the diffusers library to upscale images produced by stable diffusion in this article. Go over the rationale behind upscaling and show you how to use the Intel Extension for the PyTorch package (a Python package where Intel releases its latest optimizations and features before upstreaming them into open-source PyTorch) to optimize this process for better performance on Intel Xeon Processors.

How can the Stable Diffusion Upscale Pipeline be made more efficient for inference?

Using the Stable Diffusion model, the Stable Diffusion Upscale Pipeline from the Hugging Face diffusers library is intended to improve input image resolution, specifically increasing the resolution by a factor of four. This pipeline employs a number of different components, such as a frozen CLIP text model for text encoding, a Variational Auto-Encoder (VAE) for picture encoding and decoding, a UNet architecture for image latent noise reduction, and multiple schedulers to control the diffusion process during image production.

This pipeline is perfect for bringing out the details in artificial or real-world photos, as it is especially helpful for applications that need to produce high-quality image outputs from lower resolution inputs. In order to balance fidelity to the input text versus image quality, users can define a variety of parameters, including the number of denoising steps. Custom callbacks can also be supported during the inference process to allow for monitoring or modification of the generation.

Tune each of the Stable Diffusion Upscale Pipeline’s component parts separately before combining them to improve the pipeline’s performance. An essential component of this improvement is the PyTorch Intel Extension. With sophisticated optimizations, the addon improves PyTorch and offers a further boost in speed on Intel technology. These improvements make use of the capabilities of Intel CPUs’ Vector Neural Network Instructions (VNNI), Intel Advanced Vector Extensions 512 (Intel AVX-512), and Intel Advanced Matrix Extensions (Intel AMX). The Python API ipex.optimize(), which is accessible through the Intel Extension for PyTorch, automatically optimizes the pipeline module, enabling it to take advantage of these advanced hardware instructions for increased performance efficiency.

Sample Code

Using the Intel Extension for PyTorch for performance enhancements, the code sample below shows how to upscale a picture using the Stable Diffusion Upscale Pipeline from the diffusers library. The pipeline’s U-Net, VAE, and text encoder components are all individually targeted and CPU inference-optimized.

Configuring the surroundings

It is advised to carry out the installations in a virtualized Conda environment. Install the Intel Extension for PyTorch, diffusers, and PyTorch itself:

python -m pip install torch torchvision torchaudio –index-url https://download.pytorch.org/whl/cpu python -m pip install intel-extension-for-pytorch python -m pip install oneccl_bind_pt –extra-index-url https://pytorch-extension.intel.com/release-whl/stable/cpu/us/ pip install transformers pip install diffusers

How to Improve

First, let’s load the sample image that you want to upscale and import all required packages, including the Intel Extension for PyTorch.

Let’s now examine how the PyTorch Intel Extension capabilities can be used to optimize the upscaling pipeline.

To optimize, each pipeline component is targeted independently. Initially, you configure the text encoder, VAE, and UNet to use the Channels Last format. Tensor dimensions are ordered as batch, height, width, and channels using the channel’s last format. Because it better fits specific memory access patterns, this structure is more effective and improves performance. For convolutional neural networks, channels last is especially helpful because it minimizes the requirement for data reordering during operations, which can greatly increase processing speed.

Similar to this, ipex.optimize()} is used by Intel Extension for PyTorch to optimize each component, with the data type set to BFloat16. With the help of Intel AMX, which is compatible with 4th generation Xeon Scalable Processors and up, BFloat16 precision operations are optimized. You can enable Intel AMX, an integrated artificial intelligence accelerator, for lower precision data types like BFloat16 and INT8 by utilizing IPEX'soptimize()} function.

Ultimately, you can achieve the best results for upscaling by employing mixed precision, which combines the numerical stability of higher precision (e.g., FP32) with the computational speed and memory savings of lower precision arithmetic (e.g., BF16). This pipeline automatically applies mixed precision when `torch.cpu.amp.autocast()} is set. Now that the pipeline object has been optimized using Intel Extension for PyTorch, it can be utilized to achieve minimal latency and upscale images.

Configuring an Advanced Environment

This section explains how to configure environment variables and configurations that are optimized for Intel Xeon processor performance, particularly for memory management and parallel processing, to gain even more performance boosts. Some environment variables unique to the Intel OpenMP library are configured by the script ‘env_activate.sh’. Additionally, it specifies which shared libraries are loaded before others by using LD_PRELOAD. In order to ensure that particular libraries are loaded at runtime prior to the application starting, the script constructs the path to those libraries dynamically.

How to configure Advanced Environment on Intel Xeon CPUs for optimal performance:

Install two packages that serve as dependencies to use the script

pip install intel-openmp conda install -y gperftools -c conda-forge

git clone https://github.com/intel/intel-extension-for-pytorch.git cd intel-extension-for-pytorch git checkout v2.3.100+cpu

cd examples/cpu/inference/python/llm

Activate environment variables

source ./tools/env_activate.sh

Run a script with the code from the previous section

python run_upscaler_pipeline.py

Your environment is prepared to run Stable Diffusion Upscale Pipeline, which was performance-flagged in the previous stage to optimize for higher performance. Moreover, additional performance can be obtained by inference utilizing the Intel Extension for Pytorch optimized pipeline.

Read more on Govindhtech.com

Cpu stress test temperature

Cpu stress test temperature android#

Cpu stress test temperature software#

Cpu stress test temperature windows 7#

However, since Intel validates their thermal specifications at a steady 100% TDP, it's most appropriate to select utilities that don't overload or underload the CPU. This article provides some excellent comparisons.

Cpu stress test temperature software#

Since most users test their rigs without a sense of scale for power and temperature, they can't compare apples to apples, especially when combined with major variables such as differences in ambient temperature, hardware configurations and software utilities. Otherwise, great work! I was very pleased to read this article!Ģ0741319 said:As the author of the Intel Temperature Guide - I can fully appreciate how much work went into creating this outstanding article, which has been sorely needed! The only utilities I've ever found that come as close as possible to 100% TDP are Prime95 v26.6 Small FFT's as a steady workload for thermal testing, and Asus RealBench as a fluctuating workload for stability testing.Īlthough the topic of Prime95 (with and without AVX) was covered, I would like to have seen RealBench included in your test suite,since it's widely accepted as an excellent utility for testing overall system stability, and uses a realistic AVX workload. Nevertheless, our results are very similar. The Intel Temperature Guide differs in its approach toward the topic of processor Core temperatures and cooling with respect to Intel's TDP specifications, and distinguishes between steady workloads for thermal testing versus fluctuating workloads for stability testing. This article provides a perspective and some excellent comparisons. In addition it also displays the memory utilization.As the author of the Intel Temperature Guide - I can fully appreciate how much work went into creating this outstanding article, which has been sorely needed! It allows you to view information from Core Temp rightįrom the Media Center interface using your remote.

Cpu stress test temperature windows 7#

You can download Core Temp Gadget and CoreTempMC from the Add Ons page.ĬoreTempMC is a Windows Media Center add-on for Windows 7 and Vista. Among these improvements the gadgetĬan be resized and the information text above the readings can be hidden if so desired. The readings are now color coded and they are user adjustable from the Options screen. The new version includes a graph view, listing processor load or temperature as well as memory utilization. Recently I've released a new version of the Core Temp Gadget, completely overhauled.

Cpu stress test temperature android#

If you have an Android or Windows Phone device, now you can! Click here for more information.Ĭore Temp Gadget and Windows Media Center addon for Windows 7 and Vista. Have you ever wished that you could keep an eye on your systems while you were out of home or the office? Processor: Intel, AMD or VIA x86 based processor. Operating System: Microsoft Windows XP, Vista, 7, 8, 10, 2003 Server, 2008 Server, 2012 Server, 2016 Server. If you are a developer and you are interested in creating your own addition, please see the developer's page. You can find our plug-ins and add-ons here. A complete list of supported processors is available.Ĭore Temp is easy to use, while also enabling a high level of customization and expandability.Ĭore Temp provides a platform for plug-ins, which allows developers to add new features and extend its functionality. Processors by Intel, AMD and VIA are supported. This feature is supported by all recent x86 processors. The DTS provides more accurate and higher resolution temperature readings than conventional onboard thermal sensors. All major processor manufacturers have implemented a "DTS" ( Digital Thermal Sensor) in their products.

Cpu stress test temperature

#Cpu stress test temperature how to

#Cpu stress test temperature install

#Cpu stress test temperature 64 Bit

#Cpu stress test temperature software

Hopefully it is, and I just haven't been able to find it. Or any other solution that fits my four criteria would be great too!Īgain, I'm really surprised a program that fits the four criteria I listed is not widely available.

#Cpu stress test temperature how to

If anyone can provide a step-by-step guide for dummies on how to do so (or provide a built image that also includes temp monitoring software), that would be ideal building it with BartPE would not work because BartPE is 32 bit.

#Cpu stress test temperature 64 Bit

There is a native 64 bit version of intelburntest for winpe ( ), but despite some searching, I have no clue how to build a winpe image that includes this program. I would prefer to use something based on linpack (e.g., intelburntest) because it seems to do a great job in a short amount of time. I am very surprised the sort of tool I am looing for is not widely available it seems like an analogue to memtest86+ for cpu testing.

#Cpu stress test temperature install

I have tried several bootable cd/dvds without success including, inquisitor, ubuntu 圆4 live cd (couldn't install prime95, various errors, I'm far from fluent in linux), ultimate boot cd (doesn't do multicore does multiprocessor, not helpful for me), and a bartpe build that included prime95 (no temp monitoring software, not 64bit, can't run multiple instances). I have been scouring the internet for the past 2 days and have not been able to find anything that fits all of these criteria. I really need to be able to stress test multicore pcs prior to installing operating systems. The only utilities I've ever found that come as close as possible to 100% TDP are Prime95 v26.6 Small FFT's for thermal testing, which is a steady workload, and Asus RealBench for stability testing, which is a fluctuating workload.Īlthough the topic of Prime95 (with and without AVX) was covered, I would like to have seen RealBench included in your test suite, as it's widely accepted as an excellent utility for testing overall system stability, and uses a realistic AVX workload.I am looking for a cpu stress testing (burn in) program that fulfills the following criteria:ģ) accompanied by temperature monitoring program However, since Intel validates their thermal specifications at a steady 100% TDP, it's most appropriate to select utilities that don't overload or underload the CPU. This article provides some excellent comparisons.

#Cpu stress test temperature software

Since most users test their rigs without a sense of scale for power and temperature, they can't compare apples to apples, especially when combined with major variables such as differences in ambient temperature, hardware configurations and software utilities. Otherwise, great work! I was very pleased to read this article!Ģ0741319 said:As the author of the Intel Temperature Guide - I can fully appreciate how much work went into creating this outstanding article, which has been sorely needed! The only utilities I've ever found that come as close as possible to 100% TDP are Prime95 v26.6 Small FFT's as a steady workload for thermal testing, and Asus RealBench as a fluctuating workload for stability testing.Īlthough the topic of Prime95 (with and without AVX) was covered, I would like to have seen RealBench included in your test suite,since it's widely accepted as an excellent utility for testing overall system stability, and uses a realistic AVX workload. Nevertheless, our results are very similar. The Intel Temperature Guide differs in its approach toward the topic of processor Core temperatures and cooling with respect to Intel's TDP specifications, and distinguishes between steady workloads for thermal testing versus fluctuating workloads for stability testing. This article provides a perspective and some excellent comparisons. As the author of the Intel Temperature Guide - I can fully appreciate how much work went into creating this outstanding article, which has been sorely needed!

AVENGERS V X-MEN STAGE II : ROUND I : QUICK STATS 

MATCH-UP → gwenpool v kid omega LOCATION → wakanda WINNER → draw CASUALTIES → kid omega switches sides

QUENTIN: Namor was being dramatic again-- no shock there. And as he talked to the crowd, Quention made his way over from off to the side, feet carrying him towards blond hair tinted pink. “Surprise seeing you here.” Quentin crossed his arms and stopped when he was a few feet away from Gwen. He sounded unamused. “Come to join the fun?”

GWEN: While the rest of the Wakanda response team headed down to face the Aquaman with the bad brows Gwen had trudged up the stairs so that she could occupy the roof of one of the city’s incredibly tall buildings. Pulling her gun out, she loaded the weapon and perched it on the edge of the roof and trained her sights down below. Not that she was planning on shooting anything for a second. Wakanda was lit even if she hadn’t made a Black Panther sighting yet and it looked like a hurricane had passed through. With her stomach flat against the concrete and one ankle crossed over the other, she bobbed her head back and forth to the music that rang out from inside her mind. “Why? This is, like, the best part of the story. I wouldn’t miss this for the world.” Rolling over, Gwen stared up at the sky through pink tinted goggles. “I am the fun. You’ve come to join me.”

QUENTIN: Quentin rolled his eyes, hearing the chatter in his mind grow louder as he tuned into the crowd below them. “Looks like the party is starting without you.” He gestured over towards where the mutant and Avengers side were starting to get riled up. “You and that-- dinky gun of yours--” With a flick of his fingers, Quentin moved Gwen’s gun a few inches with a jolt of blue energy. His gun was way cooler.

GWEN: “I’ll live.” Her limbs sprawled out as if making a snow angel there in  the dust and grime of the rooftop. “See, once I go down there I’ll inevitably no longer be able to talk to you and my romantic subplot needs this time. But -- HEY!!” She shot upright when he touched her gun. “Do not touch the Reverend Al Sharpton. That’s my holy gun.” Her brows furrowed as Gwen jumped to her feet so they were standing nose to nose. “What’s up with the bad attitude, huh?”

QUENTIN: “I don’t have a bad attitude! This is how I always am!” He yelled back at her, arms widely gesturing out from his sides. Not a complete lie. Quentin was on edge lately because of his powers, but his classic asshole demeanor was a constant. A few long seconds ticked by as the two of them stood like that-- close together, but not touching. And then he dove in, crashing his lips against hers and grasping her face with both hands.

GWEN: “THEN YOU’RE A LIVING BAD ATTITUDE.” Gwen hollered back. He was only slightly taller so while they weren’t eye to eye she was very close to his lips and then -- yep. There it was. The Phoenix was literally slapping the shit out of her friends and Gwendolyn Poole ( of no relation to one gwen stacy ) was very passionately making out with the enemy. She wrapped her arms around him as well, kissing him until she pulled away with shining eyes. “Hey, I like you. Outside of I need you to stop myself from fading from existence kind of like you. Trippy, right? So wild.”

QUENTIN: When Gwen finally pulled away, Quentin was practically seeing stars. His eyes were locked on hers as she was speaking and it took a long moment for him to realize what exactly she was saying. And when he did, he took it with a grain of salt. “Are you serious?” It was both a question of disbelief and confusion. After all this time, and this weird thing between them, she was talking about feelings now? But he didn’t back away from her, even with the doubt he was feeling.

GWEN: Rapping a fist against his temple, Gwen nodded. One arm was still hooked around his waist but she made no moves to let go. “Do I seem like the type to lie to you? We polled our viewers and the answer is a resounding yes. Hurtful, but true. You’re never going to understand how my head works,” she told him honestly. “And that’s for the best. You don’t want to see in there. It’s like Deadpool on crack. A bunch of empty spaces crammed too full. BUT. I know a lot. Like, a lot a lot about everything and everyone. I know that I like you. Maybe it started off as a scheme to get attention so I wasn’t a side character, but now I’ve missed the big bad fight and that has to mean something. Am I making sense? I think I’m making sense? God, I’d kill for a thought bubble right now or some nice exposition.”

QUENTIN: “You never make sense.” It made Quentin chuckle, even it annoyed the hell out of him sometimes. “But, I kinda like it. Keeps things interesting.” His draw to her was inexplicable in a way, but with the amount of times they ended up lip-locked he was inclined to believe that maybe it was worth exploring. Quentin had never been boring, and Gwen certainly wasn’t boring either. It could work. But she was right-- he would never understand that head of hers. He was a telepath-- and a good one at that-- but it was a complicated and weird place in there. “As stupid as this sounds.. I like you too.”

GWEN: Aw, this was nice. Cute. Totally irrelevant and taking from the main story. It was late !! People needed to go to bed !! ANYWAY - she was, believe it or not, happy. A bit confused which was rare but happy all the same. A boom rocked the building then, the whole structure shaking. Something j-u-i-c-y was happening. Abruptly dropping her arms from him, Gwen ran to the edge to grab Al Sharpton so he didn’t fall over the edge. Another rang out then and the buildings structure began to fall. The part underneath her began to crumble ( which was honestly so on brand ) and then Gwendolyn Poole dropped like a stone from the top of a  very high building towards the street below.

QUENTIN: Were they having a moment? In the middle of a battle they should have been fighting in? Apparently they were, and Quentin questioned the weird warm feeling in his gut as he looked at Gwen and almost smiled. That’s when the battle-- whatever the hell was happening over there-- took a turn and the solid structure beneath their feet started to not be so solid anymore. When it crumbled, Quentin’s instinct kicked in and he managed to catch himself before falling too far. But as he hovered in midair, hands outstretched to create a forcefield between him and any falling debris, he watched as Gwen fell and hit the pavement beneath them. ”Gwen!” He called out to her but was unable to catch her-- his powers were weak as it is, it was a miracle he even caught himself. As quickly as he could go, Quentin lowered himself down to where she fell and when his feet hit the broken concrete he ran over to her.

GWEN: A good long fall never got old. Well, it never got old once you woke up from said fall and got over the bump in your head. Sure, sure. Gwen fell for fun because a girl named gwen falling off of stuff in the marvel universe??? Literal classic. Plus, y’know, there was the fact that she always tended to live. Her admission to Howard the Duck that she jumped off of things to see how far she could go wasn’t a lie. Everyone had to have hobbies. For a little bit everything was dark and her mind recalibrated itself to where she was, who she was with and whatever version she currently was. There was a rock in her mouth that she spit out before Gwen moved some debris around and sat up. “Man, not having super powers is the worst.” She jabbed a finger onto the knot that was forming on her temple and then winced in pain. Yep, still regular ol’ flesh and blood. “Hey -- where’s Al Sharpton?”

QUENTIN: Gwen sat up and Quentin skidded to a halt. She had just fallen how far off of the roof of a building and she was.. Fine? He watched as she spit out a rock. He watched as the girl with supposedly no super powers survived a fall she should not have survived-- right after they talked about their feelings. He stood there, a good few feet away from her, stunning and mouth hanging open. “What. The. Fuck. Just happened..? How are you alive?”

GWEN: “Because I’m not dead. Duh. This, dear readers, is where you say aw at the cute omega telepath who doesn’t understand how I don’t have powers. Which, I do. Sometimes. But not these kind. I’m Special K.” She stopped chattering and looked down at her pinned legs. “Hey, homie, can you move that rock? Kinda pinning me down and I can’t go all 127 hours because I won’t regrow.” Wiggling her feet under the rocks, Gwen debated trying to eat through the rocks herself. “A) how bad do you think they look under there? B) Do you still like me? C) Are you glad I’m not dead?”

QUENTIN: “Yeah, of course I’m glad you’re not dead--” He sounded frustrated but it was because he could barely comprehend what was happening. With his telekinesis, Quentin moved the rock off of her legs and then slowly took a few more steps towards her. “And I still like you. I think. I don’t know, this is.. Weird..” He crouched down next to her when he was close enough. “So you do have powers then? You lied to me before?”

GWEN: While she waited to be freed Gwen picked up a rock and weighed it in her hand before  tossing it as hard as she could towards a building. The sound of broken glass was like music to her ears. “No. Not really. I don’t have powers. Not a mutant, not an Inhumans. I’m... different. It’s part of my gig, like why I’m here. So what I can do is very limited and based on that, and it depends on what run and setting I’m in. West Coast Avengers Gwen is the pretty version of me that everyone likes and I was super held back. When I’m solo and not a supporting character or team member I can do more. You’re going to think I’m Crazy with a capital C, Quintavius. It’ll blow your mind and concept of reality. I can’t really say I have powers. It’s more of a being sort of thing. Other than the falling kink. I’m a good faller, as you can tell. I can’t even tell if anythings broken. Just got this cool knot on my head.” Again she poked it. Even though her legs were free Gwen made no move to get up since he was already on her level. Instead she just wrapped one ankle over the other. “Hey, I met your girlfriend Idie the other day as well. Did I mention that?” It wasn’t a deflection on purpose and her tone remained light. “She’s nice. Hit me in the face, but nice. Does any of this changing you liking me? I don’t want a new love interest.”

QUENTIN: Too much information. Gwen was going a hundred miles an hour and saying things that, once again, made no sense, and it all ended with her talking about Idie. His stomach twisted at the name. He tried not to think about her. For a while he tried to get her back and after her gave that up it was a chapter of a book he tried to close forever. And now-- “She punched you?” That was all he could manage to say after that huge dump of info. “Listen, can we just.. not? Clearly I like you and the fact that you’re not dead is still freaking me out. So please--” He stood back up and then held out a hand for her to grab so he could pull her to her feet. “--can we get the fuck out of here now? I’ve had enough emotions for one day.”

GWEN: “I may have been goading her - which is totally part of my charm - but yeah. Turned her fist to ice and knocked me into a wall. Not that I minded. Told her that she’d find someone better to love her and bought her a pizza. No offense of course. We needed to get the fledgings and Trauma was being creepy af. You can read about it in the chat log.” Taking his hand, Gwen pulled herself to her feet and shook out each leg. Yep, still working. The good ol’ Poole fall routine had worked again. She was thanking her writers for that. “I’m pretty hard to kill, and there’s always another version of me. It’s headache city, trust me.” Without dropping his hand Gwen yanked him to where part of her gun was protruding from the rocks. Unearthing it, she cast a sad look over the ruined weapon before tossing it back to the ground. RIP to the Reverend. There was another waiting at home. Naming it would be fun at least. “Sure. As long as you aren’t all Phoenix team and raid my crib I’ll take you home with me. Innuendo intended and not intended.” Dragging him through the rubble of where a fight they hadn’t participated had clearly been completed, Gwen flashed him a smile. “I missed you, Q squared. Don’t worry. We’re almost at the end.” And they were, for better or worse.

So... I’m home now.

Been home for at least a day, actually. But honestly, I missed my own bed so much that I more or less slept for 12 hours straight. Kinda wild to think about how I just... haven’t been here for weeks. I think Abbie and Ben came by at some point to clean out all the food we had in the fridge, so thankfully our homecoming didn’t include the rancid smell of spoiled food greeting us at the door.

But... yeah. Guess I should fill you guys in on what exactly happened.

While Han and I were helping civilians, Dark Phoenix Cyclops, was dealing some massive damage all across the planet as a side-effect of his battle with the combined team of X-Men and Avengers. Which, after a while, they did manage to beat him up enough that the Phoenix got knocked out of him. After which it went to the person who (supposedly) was supposed to have had it from the start: Hope.

I’m still not exactly sure what she did. From what I was told, she sort of made the Phoenix Force... disperse? And apparently that dispersal was what the wibbly feeling I got on my spider-and-other(?) senses right before I had a dozen people spontaneously develop powers. Mutant powers, specifically. Everyone that got powers? They were mutants. And after years of the Decimation’s aftermath making it so hardly any mutants manifested their powers (and taking them away from a lot of mutants that already had them), we’ve basically had a majority of mutants manifest (or re-manifest) their powers all at once.

I... guess it’s a good thing? But now I’m worrying about all the people out there that are most certainly going to take this the wrong way. And though what’s going on in 61610 is probably a very worst-case scenario in what you’d expect from my world, it’s got me anxiously watching what’s going on here to look out for signs that something bad might be brewing.

And I suppose there’s one other thing to address: my mom. Last they told me, she’s locked up right now while they’re debating how much of what she did was her, and how much was being egged on by the Phoenix... and yeah, I think everything with me is going to factor in big-time this time around. Which I’m hoping means she’s officially being benched from the X-Men, and that whatever punishment they come up with make it so she never has the chance to try and get at me again.

It’s... yeah. It’s been a lot. I’m probably going to try and talk to my therapist soon, and try to take a few more hours to de-compress. But not too long-- even with all that, I’ve still got a job to do.

Produk Elektronik Perusahaan IGBT

Ketika kecepatan switching meningkat dan waktu pulsa telah mengurangi kebutuhan untuk mengurangi induktansi menjadi batas yang signifikan untuk kinerja sistem yang lebih baik. Bahkan decoupling kapasitor, yang bertindak sebagai bidang sumber energi, dapat menghasilkan gelombang tegangan yang tidak dapat diterima: v = l (dalam / dt). Jadi, dalam sirkuit berkecepatan tinggi, di mana di / dt seringkali cukup besar, dimensi lonjakan tegangan hanya dapat dikurangi dengan mengurangi evolusi kapasitor keramik untuk mengurangi desain induktansi selama beberapa tahun sebelumnya. AVX telah berada di garis depan desain dan pembuatan kapasitor baru yang lebih sederhana. Total induktansi kapasitor chip ditentukan dengan baik: dengan rasio yang panjang dan lebar dan dengan koefisien kopling timbal balik induksi antara elektroda. Jadi ukuran chip 1210 memiliki induktansi yang lebih rendah dari chip 1206. Peningkatan desain ini adalah kapasitor chip induktansi AVX rendah, Li tutup, di mana elektroda berakhir di sisi panjang. Chip daripada sisi pendek. Desain standar dan kinerja Li Caps diberikan pada halaman 46 dan 47. Beberapa kapasitor mentimun juga akan membantu mengurangi perangkat induktansi parasit. IDC seperti perangkat itu.

Dengan mengakhiri satu kapasitor dengan 8 koneksi, ESL sering berkurang lebih jauh. Induktansi terukur dari 0612 IDC adalah 60 pH, sedangkan 0508 datang sekitar 50 pH. Perangkat ini dapat diinstal oleh FR4 clock yang lebih tinggi selama skema decoupling digital. Desain dan penawaran produk ditampilkan pada halaman 48 dan 49. Pengurangan lebih lanjut dalam induktansi sering dicapai dengan merancang jalur arus alternatif untuk melemahkan koefisien timbal balik dari faktor elektroda. Ini sering dicapai oleh LISA® Product AVX yang merupakan hasil pengembangan bersama antara AVX dan IBM. Arus pengisian mengalir keluar dari piring positif lagi jika tidak arah di sepanjang lempeng yang hampir negatif. Ini meminimalkan induktansi timbal balik. Induktansi kapasitor LICA yang sangat rendah berasal dari rasio elektroda pendek, pengaturan tab berikutnya membatalkan induktansi, dan oleh karena itu aspek vertikal elektroda ke permukaan pemasangan juga panjang jalur saat ini diminimalkan karena arus tidak perlu Ambil seluruh elektroda untuk menyelesaikan sirkuit. Ini mengurangi induktansi elektroda itu sendiri. Induksi diri juga diminimalkan oleh fakta bahwa arus pengisian disuplai oleh kedua set terminal mengurangi panjang jejak lebih lanjut! Pengaturan induktansi ini adalah jumlah yang lebih kecil dari 30 pH, menyebabkan resonansi diri di atas 100 MHz untuk kapasitansi 100 NF populer yang sama. Bagian yang tersedia dalam desain Liza ditampilkan pada halaman 50 dan 51. Membandingkan frekuensi GD400HFY120C2S STARPOWER resonansi kapasitor desain diri versus nilai kapasitansi. Perkiraan estimasi setiap gaya juga ditampilkan. Pengembangan aktif berlanjut pada induktansi kapasitor rendah. Pengakhiran C4 dengan solder dingin sekarang tersedia untuk kemasan plastik. Konsultasikan dengan AVX.

Untuk detailnya. sumber : https://teramitra.com/shop/skm300gb128d-semikron/

Titleist Tour Speed Now at Retail

By ED TRAVIS

Titleist the largest seller of golf balls introduces the Tour Speed, a lower compression three-piece urethane cover model at a midlevel price point.

Fast Facts: Three-piece construction Cast thermoplastic urethane 346-dimple cover New formulation of core to increase response speed Titleist’s fastest ever ionomer casing layer Lower compression and softer feel At retail August 7 SRP $39.99 dozen

WYNTK: At first glance the new Tour Speed from Titleist would seem to be competing with three of their higher price models the Titleist Pro V1, Pro V1x and AVX, i.e. urethane cover premium “Tour” balls. A closer look though shows they are really entering a market segment in which they did not have a model, a lower compression softer feel ball in the under than $40 per dozen category.

The Tour Speed’s soft feel and distance properties in part come from its compression being closer to the three-piece AVX at 80 and lower than the Pro V1 (three-piece 90) or the Pro V1x (four-piece100) which are all priced at $48 balls per dozen. This should make it attractive to those looking for a lower priced cast urethane performance ball with the Titleist brand name.

“Golfers can trust that when they tee up a Titleist, they are getting superior performance and quality versus the competition,” said Michael Mahoney, Vice President, Titleist Golf Ball Marketing. “Our golf ball scientists and engineers have gone to extraordinary lengths in the development of Tour Speed – testing numerous core formulations and aerodynamic patterns, while formulating and analyzing hundreds of TPU cover blends – to deliver on that promise. We have made every investment necessary in these new technologies, including a significant expansion of our manufacturing facility and process.”

AvX: la recensione 5 Capitolo 4: Ascesa e caduta dei Phoenix Five, finale e contenuti extra Se dovessi spiegare il finale di AvX direi che non sono proprio soddisfatto. Cioè, lo sono ma mi aspettavo di più. Ci sono state altre botte, esplosioni, uno contro tanti. Il cattivo si è rivelato ma… non saprei, qualcosa non quadrava. Ciclope negli ultimi capitoli ha commesso atti orribili verso Emma Frost che aveva compreso la corruzione che stava prendendo piede ma il crimine più grande è stato verso Charles Xavier. Eppure, con tali atti sulla coscienza, Scott Summers ne esce in parte vittima. Il cattivo non esisteva veramente e non è stato davvero sconfitto. Sotto una certa chiave di lettura aveva persino ragione visto che la Fenice ha risvegliato i mutanti in giro per il mondo. Tutte le premesse della storia sono state quasi sminuite dal tono da "royal rumble" iniziale dove le botte erano più forti delle idee e dal finale dove quello che era diventato il nemico viene in parte scusato, giustificato. Nel mezzo si trovava il vero cuore della storia, dove gli Architects hanno sviluppato al meglio le loro idee. Forse è stato tutto progettato come scusa per arrivare a Marvel NOW, quello che era un grande maxi-evento faceva solo da transizione. Boh, col senno di poi è finita come doveva (sempre meglio del What If ad esso ispirato) ma con meno esagerazioni e più focus sulle idee rispetto alle botte sarebbe stato anche meglio. La parte del leone la fanno gli artisti coinvolti: l'elegante Olivier Coipel e la quintessenza Marvel rappresentata da Adam Kubert. Quest'ultimo è sempre stato nella mia top 10 degli anni '90 ed oggi è uno dei pochi artisti ad usare delle inquadrature quasi impossibili, scorci deformanti, pose esageratissime ma super-espressive. AvX gli da la possibilità di mettere in mostra tali potenzialità. Per concludere parlerò brevemente di VS ovvero la serie gemella di AvX dove lo scopo sono proprio le botte: si prende uno degli scontri sullo sfondo della battaglia principale oppure una battaglia sottintesa tra un vendicatore e un X-man e si mostrano le mazzate, nessun approfondimento, nessun particolare rimando alla serie principale, solo pura e semplice violenza a fumetti tra supertizi. E volete sapere una cosa? Questa serie, a volte, riusciva ad essere persino più profonda rispetto alla principale! Nello scontro tra Daredevil e Psylocke c'è uno scontro tra ninja ma anche un confronto psicologico/ideologico che in 12 round di AvX abbiamo visto poche volte. Oppure in Colosso contro la Cosa, dietro alla battaglia c'è il pensiero dell'x-man russo, controllato in quel periodo dalla gemma di Cytorak che dava i poteri al Fenomeno, diviso tra la volontà di finire la lotta e la furia scatenata dal gioiello. Scritto da varie teste pensanti della Casa delle Idee e illustrato da molti degli artisti in forza alla Grande M, AvX: VS ti da quello che promette e, qualche volta anche di più. Forse proprio per le aspettative minori, ti stupisce più facilmente. Prossimamente: ogni azione ha una conseguenza.

Film Capacitor EUROPE Market Research Report 2021-2026

The Film Capacitor market report provides a detailed analysis of global market size, regional and country-level market size, segmentation market growth, market share, competitive Landscape, sales analysis, impact of domestic and global market players, value chain optimization, trade regulations, recent developments, opportunities analysis, strategic market growth analysis, product launches, area marketplace expanding, and technological innovations.

ALSO READ:  http://www.marketwatch.com/story/plastic-film-capacitor-market-research-report-with-size-share-value-cagr-outlook-analysis-latest-updates-data-and-news-2021-2028-2021-07-14

Market segmentation Film Capacitor market is split by Type and by Application. For the period 2016-2026, the growth among segments provide accurate calculations and forecasts for sales by Type and by Application in terms of volume and value. This analysis can help you expand your business by targeting qualified niche markets.

Market segment by Type, covers AC Film Capacitor DC Film Capacitor

Market segment by Application can be divided into Home Appliances Lighting Automobile Photovoltaic and Wind Power Consumer Electronics Others

ALSO READ:  http://www.marketwatch.com/story/horizontal-pumping-systems-market-research-report-with-sizeshare-valuecagroutlook-analysislatest-updates-data-and-news-2021-2026-2021-07-21

The key market players for global Film Capacitor market are listed below: Panasonic Yageo Xiamen Faratronic Nichicon TDK Anhui Tongfeng Electronic Guangdong Fengming Electronic Technology Co., Ltd. Vishay JMX AVX Corporation Nantong Jianghai Capacitor Co., Ltd Guilin Power Capacitor Knscha Eagtop

Market segment by Region, regional analysis covers North America (United States, Canada and Mexico) Europe (Germany, France, United Kingdom, Russia, Italy, and Rest of Europe) Asia-Pacific (China, Japan, Korea, India, Southeast Asia, and Australia) South America (Brazil, Argentina, Colombia, and Rest of South America) Middle East & Africa (Saudi Arabia, UAE, Egypt, South Africa, and Rest of Middle East & Africa)

ALSO READ:  http://www.marketwatch.com/story/voltage-dependent-resistors-vdr-market-research-report-with-size-share-value-cagr-outlook-analysis-latest-updates-data-and-news-2021-2028-2021-07-21

The content of the study subjects, includes a total of 14 chapters: Chapter 1, to describe Film Capacitor product scope, market overview, market opportunities, market driving force and market risks. Chapter 2, to profile the top manufacturers of Film Capacitor, with price, sales, revenue and global market share of Film Capacitor from 2019 to 2021. Chapter 3, the Film Capacitor competitive situation, sales, revenue and global market share of top manufacturers are analyzed emphatically by landscape contrast. Chapter 4, the Film Capacitor breakdown data are shown at the regional level, to show the sales, revenue and growth by regions, from 2016 to 2026. Chapter 5 and 6, to segment the sales by type and application, with sales market share and growth rate by type, application, from 2016 to 2026. Chapter 7, 8, 9, 10 and 11, to break the sales data at the country level, with sales, revenue and market share for key countries in the world, from 2016 to 2021.and Film Capacitor market forecast, by regions, type and application, with sales and revenue, from 2021 to 2026. Chapter 12, 13 and 14, to describe Film Capacitor sales channel, distributors, customers, research findings and conclusion, appendix and data source.

Table of Contents

1 Market Overview 1.1 Film Capacitor Introduction 1.2 Market Analysis by Type 1.2.1 Overview: Global Film Capacitor Revenue by Type: 2019 Versus 2021 Versus 2026 1.2.2 AC Film Capacitor 1.2.3 DC Film Capacitor 1.3 Market Analysis by Application 1.3.1 Overview: Global Film Capacitor Revenue by Application: 2019 Versus 2021 Versus 2026 1.3.2 Home Appliances 1.3.3 Lighting 1.3.4 Automobile 1.3.5 Photovoltaic and Wind Power 1.3.6 Consumer Electronics 1.3.7 Others 1.4 Global Film Capacitor Market Size & Forecast 1.4.1 Global Film Capacitor Sales in Value (2016-2026)) 1.4.2 Global Film Capacitor Sales in Volume (2016-2026) 1.4.3 Global Film Capacitor Price by Type (2016-2026) & (US$/Unit) 1.5 Global Film Capacitor Production Capacity Analysis 1.5.1 Global Film Capacitor Total Production Capacity (2016-2026) 1.5.2 Global Film Capacitor Production Capacity by Geographic Region 1.6 Market Drivers, Restraints and Trends 1.6.1 Film Capacitor Market Drivers 1.6.2 Film Capacitor Market Restraints 1.6.3 Film Capacitor Trends Analysis 2 Manufacturers Profiles 2.1 Panasonic 2.1.1 Panasonic Details 2.1.2 Panasonic Major Business 2.1.3 Panasonic Film Capacitor Product and Services 2.1.4 Panasonic Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.2 Yageo 2.2.1 Yageo Details 2.2.2 Yageo Major Business 2.2.3 Yageo Film Capacitor Product and Services 2.2.4 Yageo Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.3 Xiamen Faratronic 2.3.1 Xiamen Faratronic Details 2.3.2 Xiamen Faratronic Major Business 2.3.3 Xiamen Faratronic Film Capacitor Product and Services 2.3.4 Xiamen Faratronic Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.4 Nichicon 2.4.1 Nichicon Details 2.4.2 Nichicon Major Business 2.4.3 Nichicon Film Capacitor Product and Services 2.4.4 Nichicon Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.5 TDK 2.5.1 TDK Details 2.5.2 TDK Major Business 2.5.3 TDK Film Capacitor Product and Services 2.5.4 TDK Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.6 Anhui Tongfeng Electronic 2.6.1 Anhui Tongfeng Electronic Details 2.6.2 Anhui Tongfeng Electronic Major Business 2.6.3 Anhui Tongfeng Electronic Film Capacitor Product and Services 2.6.4 Anhui Tongfeng Electronic Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.7 Guangdong Fengming Electronic Technology Co., Ltd. 2.7.1 Guangdong Fengming Electronic Technology Co., Ltd. Details 2.7.2 Guangdong Fengming Electronic Technology Co., Ltd. Major Business 2.7.3 Guangdong Fengming Electronic Technology Co., Ltd. Film Capacitor Product and Services 2.7.4 Guangdong Fengming Electronic Technology Co., Ltd. Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.8 Vishay 2.8.1 Vishay Details 2.8.2 Vishay Major Business 2.8.3 Vishay Film Capacitor Product and Services 2.8.4 Vishay Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.9 JMX 2.9.1 JMX Details 2.9.2 JMX Major Business 2.9.3 JMX Film Capacitor Product and Services 2.9.4 JMX Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.10 AVX Corporation 2.10.1 AVX Corporation Details 2.10.2 AVX Corporation Major Business 2.10.3 AVX Corporation Film Capacitor Product and Services 2.10.4 AVX Corporation Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.11 Nantong Jianghai Capacitor Co., Ltd 2.11.1 Nantong Jianghai Capacitor Co., Ltd Details 2.11.2 Nantong Jianghai Capacitor Co., Ltd Major Business 2.11.3 Nantong Jianghai Capacitor Co., Ltd Film Capacitor Product and Services 2.11.4 Nantong Jianghai Capacitor Co., Ltd Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.12 Guilin Power Capacitor 2.12.1 Guilin Power Capacitor Details 2.12.2 Guilin Power Capacitor Major Business 2.12.3 Guilin Power Capacitor Film Capacitor Product and Services 2.12.4 Guilin Power Capacitor Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.13 Knscha 2.13.1 Knscha Details 2.13.2 Knscha Major Business 2.13.3 Knscha Film Capacitor Product and Services 2.13.4 Knscha Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 2.14 Eagtop 2.14.1 Eagtop Details 2.14.2 Eagtop Major Business 2.14.3 Eagtop Film Capacitor Product and Services 2.14.4 Eagtop Film Capacitor Sales, Price, Revenue, Gross Margin and Market Share (2019-2021) 3 Film Capacitor Sales by Manufacturer 3.1 Global Film Capacitor Sales in Volume by Manufacturer (2019-2021e) 3.2 Global Film Capacitor Revenue by Manufacturer (2019-2021e) 3.3 Key Manufacturer Market Position in Film Capacitor 3.4 Market Concentration Rate 3.4.1 Top 3 Film Capacitor Manufacturer Market Share 3.4.2 Top 6 Film Capacitor Manufacturer Market Share 3.5 Global Film Capacitor Production Capacity by Company

….CONTINUED

CONTACT DETAILS :

+44 203 500 2763

+1 62 825 80070

971 0503084105

Global Thin Film Silicon-based Integrated Passive Devices Market 2021 by Manufacturers, Regions, Type and Application, Forecast to 2026

The Thin Film Silicon-based Integrated Passive Devices market report provides a detailed analysis of global market size, regional and country-level market size, segmentation market growth, market share, competitive Landscape, sales analysis, impact of domestic and global market players, value chain optimization, trade regulations, recent developments, opportunities analysis, strategic market growth analysis, product launches, area marketplace expanding, and technological innovations.

According to our latest research, the global Thin Film Silicon-based Integrated Passive Devices size is estimated to be xx million in 2021 from USD xx million in 2020, with a change of XX% between 2020 and 2021. The global Thin Film Silicon-based Integrated Passive Devices market size is expected to grow at a CAGR of xx% for the next five years.

Market segmentation Thin Film Silicon-based Integrated Passive Devices market is split by Type and by Application. For the period 2016-2026, the growth among segments provide accurate calculations and forecasts for sales by Type and by Application in terms of volume and value. This analysis can help you expand your business by targeting qualified niche markets.

Download FREE Sample of this Report @ https://www.grandresearchstore.com/report-sample/global-thin-film-siliconbased-integrated-passive-devices-2021-2026-426

Market segment by Type, covers ESD/EMI Protection IPD Digital and Mixed Signals IPD RF IPD Others

Market segment by Application can be divided into Consumer Electronics Industrial Application Network and Server Equipment Automotive Applications Medical and Life Sciences Others

The key market players for global Thin Film Silicon-based Integrated Passive Devices market are listed below: Broadcom Murata Skyworks ON Semiconductor STMicroelectronics AVX Johanson Technology 3D Glass Solutions (3DGS) Xpeedic OnChip

Market segment by Region, regional analysis covers North America (United States, Canada and Mexico) Europe (Germany, France, United Kingdom, Russia, Italy, and Rest of Europe) Asia-Pacific (China, Japan, Korea, India, Southeast Asia, and Australia) South America (Brazil, Argentina, Colombia, and Rest of South America) Middle East & Africa (Saudi Arabia, UAE, Egypt, South Africa, and Rest of Middle East & Africa)

The content of the study subjects, includes a total of 14 chapters: Chapter 1, to describe Thin Film Silicon-based Integrated Passive Devices product scope, market overview, market opportunities, market driving force and market risks. Chapter 2, to profile the top manufacturers of Thin Film Silicon-based Integrated Passive Devices, with price, sales, revenue and global market share of Thin Film Silicon-based Integrated Passive Devices from 2019 to 2021. Chapter 3, the Thin Film Silicon-based Integrated Passive Devices competitive situation, sales, revenue and global market share of top manufacturers are analyzed emphatically by landscape contrast. Chapter 4, the Thin Film Silicon-based Integrated Passive Devices breakdown data are shown at the regional level, to show the sales, revenue and growth by regions, from 2016 to 2026. Chapter 5 and 6, to segment the sales by type and application, with sales market share and growth rate by type, application, from 2016 to 2026. Chapter 7, 8, 9, 10 and 11, to break the sales data at the country level, with sales, revenue and market share for key countries in the world, from 2016 to 2021.and Thin Film Silicon-based Integrated Passive Devices market forecast, by regions, type and application, with sales and revenue, from 2021 to 2026. Chapter 12, 13 and 14, to describe Thin Film Silicon-based Integrated Passive Devices sales channel, distributors, customers, research findings and conclusion, appendix and data source.

Get the Complete Report & TOC @ https://www.grandresearchstore.com/chemicals-and-materials/global-thin-film-siliconbased-integrated-passive-devices-2021-2026-426

Table of content

1 Market Overview 1.1 Thin Film Silicon-based Integrated Passive Devices Introduction 1.2 Market Analysis by Type 1.2.1 Overview: Global Thin Film Silicon-based Integrated Passive Devices Revenue by Type: 2019 Versus 2021 Versus 2026 1.2.2 ESD/EMI Protection IPD 1.2.3 Digital and Mixed Signals IPD 1.2.4 RF IPD 1.2.5 Others 1.3 Market Analysis by Application 1.3.1 Overview: Global Thin Film Silicon-based Integrated Passive Devices Revenue by Application: 2019 Versus 2021 Versus 2026 1.3.2 Consumer Electronics 1.3.3 Industrial Application 1.3.4 Network and Server Equipment 1.3.5 Automotive Applications 1.3.6 Medical and Life Sciences 1.3.7 Others 1.4 Global Thin Film Silicon-based Integrated Passive Devices Market Size & Forecast 1.4.1 Global Thin Film Silicon-based Integrated Passive Devices Sales in Value (2016-2026)) 1.4.2 Global Thin Film Silicon-based Integrated Passive Devices Sales in Volume (2016-2026) 1.4.3 Global Thin Film Silicon-based Integrated Passive Devices Price by Type (2016-2026) & (US$/Unit) 1.5 Global Thin Film Silicon-based Integrated Passive Devices Production Capacity Analysis 1.5.1 Global Thin Film Silicon-based Integrated Passive Devices Total Production Capacity (2016-2026) 1.5.2 Global Thin Film Silicon-based Integrated Passive Devices Production Capacity by Geographic Region 1.6 Market Driver

CONTACT US: 276 5th Avenue, New York , NY 10001,United States International: (+1) 646 781 7170 / +91 8087042414 Email: [email protected] Follow Us On linkedin :- https://www.linkedin.com/company/grand-research-store/

The battle of the Marvelous Russians Artist: Terry Dodson Source AvX Versus #3

Intel’s 3rd-generation Xeon Scalable CPUs offer 16-bit FPU processing

reader comments

8 with 8 posters participating

Share this story

Intel’s focus on AI architecture is so deep that the actual SKU table seemed like little more than an afterthought. Also notice no prices are available.

This is the only place you’ll see general-purpose workload performance claims—against five-year old Intel-only systems, and ignoring Spectre/Meltdown mitigations.

There’s no mention of AMD on this or any other slide. Intel would actually dominate AMD on this slide if it were shown, since Epyc doesn’t offer AVX-512 optimization.

Ice Lake in the datacenter later this year should be an interesting launch—though somewhat limited by the lower socket count.

Intel today announced its third-generation Xeon Scalable (meaning Gold and Platinum) processors, along with new generations of its Optane persistent memory (read: extremely low-latency, high-endurance SSD) and Stratix AI FPGA products.

The fact that AMD is currently beating Intel on just about every conceivable performance metric except hardware-accelerated AI isn’t news at this point. It’s clearly not news to Intel, either, since the company made no claims whatsoever about Xeon Scalable’s performance versus competing Epyc Rome processors. More interestingly, Intel hardly mentioned general-purpose computing workloads at all.

Finding an explanation of the only non-AI generation-on-generation improvement shown needed jumping through multiple footnotes. With sufficient determination, we eventually discovered that the “1.9X average performance gain” mentioned on the overview slide refers to “estimated or simulated” SPECrate 2017 benchmarks comparing a four-socket Platinum 8380H system to a five-year-old, four-socket E7-8890 v3.

Who doesn’t like a good cat pic? These images of a kitten stored in INT8, BF16, and FP32 datatypes give a good overview of the accuracy levels of each.

These case studies demonstrate both inference and training acceleration offered by the new BF16 datatype. Note the fine print—which boils down to “we ignored Meltdown/Spectre to get big numbers.”

If you weren’t satisfied with a kitten pic, you can play a cheesy and theoretically BF16-releated game. It’s just as much fun as it sounds like.

To be fair, Intel does seem to have introduced some unusually impressive innovations in the AI space. “Deep Learning Boost,” which formally was just branding for the AVX-512 instruction set, now encompasses an entirely new 16-bit floating point data type as well.

With earlier generations of Xeon Scalable, Intel pioneered and pushed heavily for using 8-bit integer—INT8—inference processing with its OpenVINO library. For inference workloads, Intel argued that the lower accuracy of INT8 was acceptable in most cases, while offering extreme acceleration of the inference pipeline. For training, however, most applications still needed the greater accuracy of FP32 32-bit floating point processing.

The new generation adds 16-bit floating point processor support, which Intel is calling bfloat16. Cutting FP32 models’ bit-width in half accelerates processing itself, but more importantly, halves the RAM needed to keep models in memory. Taking advantage of the new data type is also simpler for programmers and codebases using FP32 models than conversion to integer would be.

Intel also thoughtfully provided a game revolving around the BF16 data type’s efficiency. We cannot recommend it either as a game or as an educational tool.

Optane storage acceleration

Performance results “may not reflect all publicly available security updates” sounds like weasel-wording for “Meltdown/Spectre mitigations not applied.”

The big draws to Optane storage are dramatically lower latency and higher write endurance than NAND SSDs can offer.

Intel also announced a new, 25 percent-faster generation of its Optane “persistent memory” SSDs, which can be used to greatly accelerate AI and other storage pipelines. Optane SSDs operate on 3D Xpoint technology rather than the NAND flash typical SSDs do. 3D Xpoint has tremendously higher write endurance and lower latency than NAND does. The lower latency and greater write endurance makes it particularly attractive as a fast caching technology, which can even accelerate all solid-state arrays.

The big takeaway here is that Optane’s extremely low latency allows acceleration of AI pipelines—which frequently bottleneck on storage—by offering very rapid access to models too large to keep entirely in RAM. For pipelines which involve rapid, heavy writes, an Optane cache layer can also significantly increase the life expectancy of the NAND primary storage beneath it, by reducing the total number of writes which must actually be committed to it.

Enlarge / Latency vs. IOPS, with a 70/30 read/write workload. The orange and green lines are data center-grade traditional NAND SSDs; the blue line is Optane.

For example, a 256GB Optane has a 360PB write-endurance spec, whereas a Samsung 850 Pro 256GB SSD is only specced for 150TB endurance—greater than a 1,000:1 advantage to Optane.

Meanwhile, this excellent Tom’s Hardware review from 2019 demonstrates just how far in the dust Optane leaves traditional data center-grade SSDs in terms of latency.

Stratix 10 NX FPGAs

A curve that doubles almost once per quarter puts Moore’s Law to shame.

This block model overview of Stratix claims enormous generation-on-generation INT8 inference improvements at datacenter scale.

When you need higher densities and better efficiency than a general purpose CPU can provide, you build an ASIC. Stratix is Intel’s answer to AI-targeted ASICs.

Finally, Intel announced a new version of its Stratix FPGA. Field Gate Programmable Arrays can be used as hardware acceleration for some workloads, allowing more of the general-purpose CPU cores to tackle tasks that the FPGAs can’t.

Listing image by Intel

Source

The post Intel’s 3rd-generation Xeon Scalable CPUs offer 16-bit FPU processing appeared first on abangtech.

from abangtech https://abangtech.com/intels-3rd-generation-xeon-scalable-cpus-offer-16-bit-fpu-processing/

THE FOLLOWING IS A CLASSIFIED AND HIGH IMPORTANCE MESSAGE - Although we have been trying to minimize the damage from the Phoenix Five and keep the public safe we have not been doing well as of late. The fight has shifted towards the mutants favor despite our best efforts but we are asking those who remain to not lose hope and continue the fight. Left unchecked there is no end to what the Phoenix Five will be able to do and we are this worlds last defense. Below you will find a status report of where we currently stand.

BLUE AREA OF THE MOON - Blue Marvel and the Valkyrie tried to defend the area from the Phoenix host Wither. Despite efforts from both, Wither was not weakened and left the area voluntarily. Brashear was wounded and the Valkyrie was infected by Wither. She has been taken to the med bay but is unresponsive. If you come into contact with anyone infected by Wither, do not touch them or you will become sick as well. So  far we have lost three nurses and two guards. In the meantime, we are working on helping the Asgardians find a new ruler.

EN SABAH NUR’S TOMB - Noh-Varr was able to pick up some readings of activity underneath the pyramid. His scan was interrupted by the mutant Vulcan. He was able to end the fight and returned to base with the stats.

GENOSHA - Speed led a team consisting of himself, Bombshell and Cable to the island to check in on Magneto. During the fight Magneto killed both Bombshell and Cable and took their bodies. Speed has reported that Magneto claimed to be able to resurrect both but there has been no evidence that this is true.

HELLFIRE ACADEMY - Gwenpool and Trauma were sent to the Academy to evacuate  the younger students for their own protection. They ran into Hellfire Club supporter Oya and  despite their being a brief fight, the two managed to get their mutant children to safety and brought Oya with them. We are evacuated mutant minors because we fear the potential of the Phoenix force.

JEAN GREY SCHOOL - Wolverine went to the school to evacuate students but instead found the Phoenix host Cyclops. The two fought and Wolverine was significantly injured. Cyclops left the now abandoned school and Wolverine’s healing factor brought him back to full health.

KRAKOA - Prestige went to Krakoa to try and see what the inside of the Island was like. She had no choice but to fight Quentin Quire when he confronted her.  Prestige won and brought back crucial information on the current occupancy of the Island.

LATVERIA - The Invisible Woman was sent to Latveria to try and get in contact with Doctor Doom since the country has recently gone dark. We are unsure of what happened as the Phoenix host Blink was spotted in the area and Richard’s transportation was found in a cornfield in Kentucky.

MADRIPOOR - Jimmy Hudson went to the X-Manor to see if the mutants were using it as a base.  He met former teammate Cyclops while there but was able to subdue him. Cyclops lost his visor and was given a temporary lens when he was put into the Avengers holding cells.

NEW ASGARD - Thor agreed to defend New Asgard while the Valkyrie was on assignment on the moon. Phoenix host Emma Frost quickly beat Thor and lit the village on fire.  Because she left with Odinson the Asgardians are currently without a leader. Rebuilding has begun since then but any aid that can be given to the Asgardians is needed.

NEW ATTILAN - Crystal and the Inhuman Royal Guard tried to defend the city against Phoenix host Namor. He did significant damage to the city after flooding it and onsite witnesses have reported that he drowned Queen Amaquelin. Because former King Blackagar Boltagon has refused the throne the title of ruler has now been passed to his son, Prince Ahura Boltagon. Due to the Prince being underage the Royal Family is working to find a regent ruler.

NEW AVENGERS COMPOUND - Hawkeye was put in charge of the New Avengers  Compound to keep up on security. Hellion breached the premise as well as one of the Stepford Cuckoos. Footage shows that they kidnapped Hawkeye and searched the perimeter. In the time since we have managed to regain control of the Compound.

NEW YORK CITY - Silk and Ghost Spider were tasked with monitoring the city and putting  a special focus on Empire State University where some of our research has been stored. Nightcrawler managed to take one of the files along with Ghost  Spider but Silk brought the remaining one back to headquarters for safe keeping. The information in the stolen file has been copied, but we cannot let them take anything else.

SANCTUM SANCTORUM - Wiccan went to the Sanctum Sanctorum in New York to watch over the magical artifacts there while Doctor Strange remains indisposed. Magik beat him in magical combat and left Wiccan wounded on the ice.  The mutants did manage to take some of the belongings and have made the space inaccessible.

SAVAGE LANDS - Ant-Man and Giant Man protected the area from Gambit. The mutant later switched to join the Avengers side along with Polaris.

S.H.I.E.L.D. HELICARRIER - Quake and Spider-Woman needed to ensure the S.H.I.E.L.D. Helicarrier made it to the docking location in Washington D.C. The craft was boarded by Shadowcat who commandeered the vessel. Quake was ejected in an escape pod but Spider-Woman and the ship were both taken.

SUBTERRANEA - Inferno and Iceman dueled down in Subterranea. Inferno won and called a medic for Iceman before taking him into custody.

TABULA RASAR - The Human Torch and Iceman fought. Although he was not taken as a hostage, the Human Torch lost the fight.

TAYMYR PENINSULA - The Thing and Colossus had a brawl here on the plain. Because Colossus won we do not have claim over  the land.

WAKANDA - The Winter Soldier and Nomad were requested by Princess Shuri to guard the nations resources. Polaris arrived on behalf of the mutants and took Nomad hostage. She did leave the Winter Soldier behind and later switched over to our side.

WUNDAGORE MOUNTAIN - Pope traveled to the Mountain to keep it safe from mutant activity. Sebastian Shaw also arrived by Pope was able to beat him and secured the Mountain.

Re: Dark phoenix as a social construct; I don't believe there's an inherent divide between Phoenix and Dark Phoenix, I don't think it's a binary but rather that the outward manifestation of colors is due to an inward belief that one has gone dark, that the colors themselves were created by Jean and have been adopted by subsequent hosts only because they have Jean's transformation as a reference point

1) strongly agree

2) the inward belief thing is something that i find really interesting, for many many reasons, and you know what, screw studying, i’m gonna talk about why, and i’m gonna get at least half of my canon wrong as a warning up front but canon can fucking bite me

(spoiler alert: it’s trauma)

there is nothing concrete that separates phoenix and dark phoenix. not at all. canon likes to harp on how dark phoenix is ~human emotions warping the force~ or whatever but that doesn’t make any fucking sense because in order for that to be a distinct identifier of that state then it would have to also have an inverse. and the supposed inverse, the state wherein hosts are existing bonded w/ the force without being considered “dark”, is definitely not lacking in emotion

but what it often has, instead, in many hosts, is emotion put under psychological lock and key, and layers upon layers of repression and refusal to admit your own emotions, and feeling like if you do admit them then you’re a liability to the people around you and to yourself

i don’t think it’s a mistake that a lot of plotlines where the phoenix is involved have a heavy focus on self-control. but i don’t think it’s self-control at all—i think it’s denial and rigidity, and refusing to let yourself experience things until you’re forced to, and then you don’t have the metaphorical coping skills necessary to mitigate the fallout. not quite catharsis, but something very similar

and, in-universe, i think this makes sense because the phoenix force itself exists to drive forwards action and evolution. that can look like restarting the continued existence of a subspecies that’s been unnaturally cut short—or, on a much smaller scale, within a single person, it could look like allowing yourself to confront your trauma

and then you confront it, and you feel emotions, and you feel like this is bad and wrong of you to do, because you’re bad and wrong for acting this way or being like this in the first place, and so clearly this is a personal fault of yours

i hate citing avx for anything but that’s a fairly vivid example that isn’t just me pointing at the original dark phoenix saga: i think it’s very telling that scott didn’t “officially” become dark phoenix until he killed xavier. casting aside some very questionable writing and looking at this from an in-universe perspective, why is that the triggering event? why is that the point of no return? (is it because that’s the point at which he fully, 100% believes that he’s irredeemable—to the point where post-avx he’s explicitly, textually suicidal?)

i also think it’s very, very important here to note that when we’ve seen hosts talked down on-panel, those have all been due to emotional appeals and expressions of support, of community

(also the bit in endsong but i opened that issue for a panel cap and 1: realized it would be really awkward to screencap semi-legibly and 2: felt my eyeballs shrivel at having to look at how greg land draws women)

and, to use avx again, the opposite:

the fucking contrast there is unbelievable: “you’re not alone, you have people who care about you, you’re fundamentally not a bad person for experiencing what you are” versus “i taught you better than this, i’m ashamed of you, i’m not going to have a discussion i’m just going to shut you down”

(i have many, many thoughts about how hosting the phoenix is a two-way street where each affects and shapes the other, too, but god damn if i can’t get them to come out in a semi-articulate manner right now)

Komponen Semikonduktor Yang digunakan Pada Motor Dengan Manufaktur Starpower

Ketika kecepatan switching meningkat dan waktu pulsa telah mengurangi kebutuhan untuk mengurangi induktansi menjadi batas yang signifikan untuk kinerja sistem yang lebih baik. Bahkan kapasitor decoupling, yang bertindak sebagai area sumber energi, dapat menghasilkan Gelombang tegangan yang tidak dapat diterima: V = l (in / dt). Jadi, di sirkuit kecepatan tinggi, di mana di / dt seringkali cukup besar, dimensi lonjakan tegangan hanya dapat dikurangi dengan mengurangi evolusi kapasitor keramik untuk menurunkan desain induktansi selama beberapa tahun sebelumnya. AVX telah berada di garis depan desain dan pembuatan kapasitor baru yang lebih sederhana. Total induktansi kapasitor chip ditentukan dengan baik: dengan rasio panjang dan lebar dan dengan koefisien kopling timbal balik induksi antara elektroda. Jadi ukuran chip 1210 memiliki induktansi yang lebih rendah dari chip 1206. Peningkatan desain ini adalah dasar kapasitor chip induktansi AVX rendah, LI Tutup, di mana elektroda berakhir di sisi panjang. Chip daripada sisi pendek. Desain standar dan kinerja Li Caps diberikan pada halaman 46 dan 47. Beberapa kapasitor mentimun juga akan membantu mengurangi Perangkat induktansi parasit. IDC seperti perangkat itu.

Dengan mengakhiri satu kapasitor dengan 8 koneksi, ESL sering berkurang lebih jauh. Induktansi terukur dari 0612 IDC adalah 60 pH, sedangkan 0508 datang sekitar 50 pH. Perangkat ini yang dapat diinstal oleh FR4 bahkan lebih tinggi clock selama skema decoupling digital. Desain dan penawaran produk ditampilkan di halaman 48 dan 49. Pengurangan lebih lanjut dalam induktansi sering dicapai dengan merancang jalur arus alternatif untuk melemahkan koefisien timbal balik dari faktor elektroda. Ini sering dicapai oleh LISA® Product AVX yang merupakan hasil pengembangan bersama antara AVX dan IBM. Arus pengisian mengalir keluar dari pelat positif kembali sebaliknya arah di sepanjang piring negatif yang berdekatan. Ini meminimalkan induktansi timbal balik. Induktansi Kapasitor LICA yang sangat rendah berasal dari rasio elektroda pendek, pengaturan tab berikutnya membatalkan induktansi, dan oleh karena itu aspek vertikal elektroda ke permukaan pemasangan Juga panjang jalur saat ini efektif diminimalkan karena arus tidak perlu mengambil seluruh elektroda untuk menyelesaikan sirkuit. Ini mengurangi induktansi elektroda itu sendiri. Induksi diri juga diminimalkan oleh fakta bahwa arus pengisian dipasok oleh kedua set terminal mengurangi panjang jejak lebih lanjut! Pengaturan induktansi ini adalah jumlah yang lebih kecil dari 30 pH, Menyebabkan resonansi diri di atas 100 MHz untuk kapasitansi 100 NF populer yang sama. Bagian-bagian yang tersedia dalam desain Liza ditunjukkan pada halaman 50 dan 51. Membandingkan frekuensi GD400HFY120C2S Starpower resonansi mandiri desain kapasitor versus nilai kapasitansi. Perkiraan induktansi masing-masing gaya juga ditampilkan. Pengembangan aktif berlanjut pada induktansi kapasitor rendah. Pengakhiran C4 dengan solder dingin sekarang tersedia untuk kemasan plastik. Berkonsultasi dengan AVX.

Untuk detailnya. sumber : https://teramitra.com/shop/gd400hfy120c2s-starpower/