AWS Amplify HostingからAgentCore RuntimeをCloudFormationでデプロイする (直接コードデプロイ版)
https://qiita.com/Takenoko4594/items/123bc6faa6de714edb8a?utm_campaign=popular_items&utm_medium=feed&utm_source=popular_items

#qiita #AWS #CloudFormation #amplify #AgentCore

AWS Amplify HostingのCI/CDからCloudFormationでAgentCore Runtimeをデプロイする (コンテナイメージ編)
https://qiita.com/Takenoko4594/items/a4a32472bd8aa5d0339e?utm_campaign=popular_items&utm_medium=feed&utm_source=popular_items

#qiita #AWS #CloudFormation #amplify #AgentCore

Cought a beautiful cloud swirl this morning at my running hood at Bang Wad Dam in Phuket #clouds #cloudformation #Phuket #naturephotography

CloudFormation で閉域 VPC、TGW、Route 53 Resolver の検証環境を一気呵成に構築する
https://qiita.com/takeda_h/items/41c486e461460b933b81?utm_campaign=popular_items&utm_medium=feed&utm_source=popular_items

#qiita #AWS #CloudFormation

#Sky, #Clouds, #Cloudscape, #bw , #Monochrome, #Photography, #Nature, #SkyLovers, #Texture, #Abstract, #Altocumulus, #Cirrocumulus, #MackerelSky, #CloudFormation, #RippleCloud, #Undulatus, #CloudArt, #Celestial, #USA, #UK, #Travel, #Outdoor, #Weather, #SkyWatching, #Clouds, #B&W, #Mono, #Photo, #Nature, #Texture, #Abstract, #Art, #Celestial, #BW, #Contrast, #Dramatic, #High, #Aesthetic, #Travel, #Minimal, #Atmosphere, #Europe, #USA, #UK, #Outdoor, #Weather, #Gray, #Light, #View, #Zen.

【CFnテンプレ付】CloudWatch Metrics/AlarmトリガーでAWS SNSから届く監視通知を、slackで読みやすくする小ワザ
https://qiita.com/ogura-gmoconnect/items/b3c522e2a7b56872c407?utm_campaign=popular_items&utm_medium=feed&utm_source=popular_items

#qiita #AWS #CloudFormation #SNS #Slack #EventBridge

Dusty Clouds Make More Ice

Even when colder than its freezing point, water droplets have trouble freezing–unless there’s an impurity like dust that they can cling to. It’s been long understood in the lab that adding dust allows water to freeze at warmer temperatures, but proving that at atmospheric scales has been harder. But a new analysis of decades’ worth of satellite imagery has done just that. The team showed that a tenfold increase in dust doubled the likelihood of cloud tops freezing.

Since ice-topped clouds reflect sunlight and trap heat differently than water-topped ones, this connection between dust and icy clouds has important climate implications. (Image and research credit: D. Villanueva et al.; via Eos)

#climateChange #cloudFormation #dust #fluidDynamics #meteorology #physics #science

“Vorticity 6”

It’s time for another storm-chasing timelapse from photographer Mike Olbinski! “Vorticity 6” focuses on supercell thunderstorms and their tornadoes. There’s billowing turbulent convection, undulating asperitas, bulging mammatus, microbursts, and more. There’s nothing like timelapse to highlight the growth, rotation, and shear involved in these storms. (Video and image credit: M. Olbinski)

#asperitas #cloudFormation #clouds #convection #fluidDynamics #fluidsAsArt #mammatus #physics #science #thunderstorm #turbulence

Seeding Clouds With Wildfire

Raging wildfires send plumes of smoke up into the atmosphere; that smoke is made up of tiny particles that can serve as seeds — nucleation sites — where water vapor can freeze and form clouds. To understand wildfire’s effect on cloud growth, researchers sampled air from the troposphere (the atmosphere’s lowest layer) both in and around wildfire smoke.

The team found that smoke increased the number of nucleating particles up to 100 times higher than the background air, but the exact make-up of the smoke varied significantly by fire. Smoke particles were mostly organic, though inorganic ones appeared as well. The temperature of a fire, as well as what materials it was burning, made a big difference; the fire where they measured the highest particle concentrations included lots of unburned plant material, thought to be carried aloft by turbulence around the fire. (Image credit: K. Barry; research credit: K. Barry et al.; via Eos)

#cloudFormation #fluidDynamics #nucleation #physics #science #smoke #turbulence #wildfire

Effect of Atmospheric Dust on Ice Cloud Formation Confirmed
It is known that the proportion of ice-topped clouds depends on dust particles in the cloud that act as nuclei for ice crystal formation............
#aerosol #AtmosphericMineralDust #CCN #climate #cloud #Cloudformation #Earthscience #Iceclouds #MineralDust #Particulatematter #science #UmeshPrasad
Umesh Prasad

https://www.scientificeuropean.co.uk/sciences/earth-science/effect-of-atmospheric-dust-on-ice-cloud-formation-confirmed/

Effect of Atmospheric Dust on Ice Cloud Formation Confirmed
It is known that the proportion of ice-topped clouds depends on dust particles in the cloud that act as nuclei for ice crystal formation............
#aerosol #AtmosphericMineralDust #CCN #climate #cloud #Cloudformation #Earthscience #Iceclouds #MineralDust #Particulatematter #science #UmeshPrasad
Umesh Prasad

https://www.scientificeuropean.co.uk/sciences/earth-science/effect-of-atmospheric-dust-on-ice-cloud-formation-confirmed/

I built my website using @enhance_dev a couple years ago but I feel like I should use a more popular #IaC framework for deploying to #AWS like #CDK, #SAM, #Terraform or just raw #CloudFormation.

The problem is, I'm spoiled; Enhance makes #serverless so easy. I find myself just reimplementing all it's features; file based routing, html templates, session management, etc.

#webDev

CloudFormation (and by extension everything that builds on it, such as the CDK) promises a declarative deployment: you describe how your infrastructure should look like and the tool makes reality match that.

When it works well it simplifies thinking about deployments a lot: you can update, roll back, and switch to any version, just like you could with a version-controlled local program.

But the reality is that there are edge cases: some resources that don't play well with this declarative approach. What most of my time is spent when working with CloudFormation and the CDK is working around these edge cases.

I've just publish an article about a couple of examples of these problematic resources I've encountered. Starting with something simple to an S3 bucket, to IAM Roles, then my favourite, IoT DomainConfigurations.

Read it here: https://advancedweb.hu/edge-cases-in-cloudformation/

#cloudformation #aws

Penguin Poo Seeds Antarctic Clouds

Forming clouds requires more than just water vapor; every droplet in a cloud forms around a tiny aerosol particle that serves as a seed that vapor can condense onto. Without these aerosols, there are no clouds. In most regions of the world, aerosols are plentiful — produced by vegetation, dust, sea salt, and other sources. But in the Antarctic, aerosol sources are few. But a new study shows that penguins help create aerosols with their feces.

Penguin feces is ammonia-rich, and that ammonia, when combined with sulfur compounds from marine phytoplankton, triggers chemistry that releases new aerosol particles. The researchers measured ammonia carried on the wind from nearby penguin colonies and found that the birds are a large ammonia source, producing 100 to 1000 times the region’s baseline ammonia levels. In combination with another ingredient in penguin guano, the researchers found the penguins boosted aerosol production 10,000-fold. That means penguins can actually influence their environment, helping to create clouds that keep Antarctica cooler. (Image credit: H. Neufeld; research credit: M. Boyer et al.; via Eos)

#aerosols #biology #chemistry #cloudFormation #condensation #fluidDynamics #penguins #physics #science

“Monsoon 7”

Storm-chasing photographer Mike Olbinski (previously) returns with another stunning timelapse of summer thunderstorms in the western U.S. I never tire of watching the turbulent convection, microbursts, billowing haboobs, and undulating clouds Olbinski captures. His work is always a reminder of the incredible power and energy contained in our atmosphere and unleashed in cycles of warming and cooling, evaporation and condensation. (Video and image credit: M. Olbinski)

#cloudFormation #condensation #evaporation #fluidDynamics #fluidsAsArt #haboob #physics #science #thunderstorm #turbulence

【AWS】用語を整理しながら学ぶAWS CDK（TypeScriptを利用）
https://qiita.com/ymd65536/items/6e67dc8d2bf8b8dece53?utm_campaign=popular_items&utm_medium=feed&utm_source=popular_items

#qiita #AWS #CloudFormation #CDK #AWSCDK

AWS実務未経験からAWSエンジニアになって1年で学んだ実践的なこと
https://qiita.com/triple321jhango/items/b4be7dfef7a899ed047e?utm_campaign=popular_items&utm_medium=feed&utm_source=popular_items

#qiita #AWS #CloudFormation #IaC #エンジニアのキャリア

A developing lenticular cloud advancing over a hilltop in the Patagonia region of Argentina.

#cloudformation #lenticular #patagonia #argentina #landscape #hills #mountains #nature #scenery #southamerica #AYearForArt #buyIntoArt #giftideas #wallart #artforsale @joancarroll

https://joan-carroll.pixels.com/featured/advancing-lenticular-cloud-patagonia-argentina-joan-carroll.html

Well, I found out just now that awscommunity.social has shut down, which means that my @cfnupdates bot is no longer available (nor can I migrate its followers to somewhere else).

I'm not actively following #cloudformation changes at the moment, so I"m not going to try to bring the bot back online in the near future. But if anyone out there wants it back, just let me know!