This is a snapshot from a website axess.se taken at 2021/10/27 23:48:29
axess.se

Startsida – Axess

Headlines - H1,H2,H3 Tags very important and their hierarchia for crawlers

luthersson läser världslitteraturenhederskulturens medlöparekunskap och information med martin ingvarengelsbergsseminariet 2019 historia och nutiddel 6 av 6 – portugalom thomas bernhardjuveler bland världsarvenen ny bokdel 4 av 4 – fritidtågen som förändrade världentotalitarismens bekämparerebellen albert camusdel 4 av 4 – is öken och undergångseuforien annan världdel 3 empress of irelandidiotenom axesskontaktstadens viktiga vattenvägarkanalernas parisett kollapsat imperiumwien 1918del 3 av 4 – istanbullegendariska badhusskeppsvrak

Keywords - The most relevant keywords, (3 words) (2 words) (single word)

del 2 avdel 3 avdel 4 avdel 1 avluthersson läser världslitteraturenspara till bokmärkendel 5 av4 av 4del 6 avskaffa axess tvjuveler bland världsarven4 av 6tågen som förändradesom förändrade världen3 av 42 av 4towern bakom kulissernaengelsbergsseminariet 2019 historia2019 historia och5 av 6bok – 2021veckans bok –pj anders linderläser världslitteraturen om3 av 3

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Network Info from axess.se

ContactSOA Serial
hostmaster@dcsto.se2020102601

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Free Website SEO analytics for axess.se

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First Contentful Paint ( 8 / 100 )

First Contentful Paint marks the time at which the first text or image is painted.

5.2 s

Speed Index ( 13 / 100 )

Speed Index shows how quickly the contents of a page are visibly populated.

9.3 s

Largest Contentful Paint ( 0 / 100 )

Largest Contentful Paint marks the time at which the largest text or image is painted.

13.2 s

Time to Interactive ( 7 / 100 )

Time to interactive is the amount of time it takes for the page to become fully interactive.

15.3 s

Total Blocking Time ( 1 / 100 )

Sum of all time periods between FCP and Time to Interactive, when task length exceeded 50ms, expressed in milliseconds.

4,060 ms

Max Potential First Input Delay ( 0 / 100 )

The maximum potential First Input Delay that your users could experience is the duration of the longest task.

1,830 ms

First Meaningful Paint ( 27 / 100 )

First Meaningful Paint measures when the primary content of a page is visible.

5.2 s

Eliminate render-blocking resources ( 24 / 100 )

Resources are blocking the first paint of your page. Consider delivering critical JS/CSS inline and deferring all non-critical JS/styles.

Potential savings of 2,980 ms

Reduce unused CSS ( 36 / 100 )

Reduce unused rules from stylesheets and defer CSS not used for above-the-fold content to decrease bytes consumed by network activity.

Potential savings of 32 KiB

Reduce unused JavaScript ( 26 / 100 )

Reduce unused JavaScript and defer loading scripts until they are required to decrease bytes consumed by network activity.

Potential savings of 288 KiB

Efficiently encode images ( 74 / 100 )

Optimized images load faster and consume less cellular data.

Potential savings of 18 KiB

Serve images in next-gen formats ( 70 / 100 )

Image formats like WebP and AVIF often provide better compression than PNG or JPEG, which means faster downloads and less data consumption.

Potential savings of 101 KiB

Preconnect to required origins ( 72 / 100 )

Consider adding `preconnect` or `dns-prefetch` resource hints to establish early connections to important third-party origins.

Potential savings of 350 ms

Serve static assets with an efficient cache policy ( 14 / 100 )

A long cache lifetime can speed up repeat visits to your page.

38 resources found

Avoid an excessive DOM size ( 0 / 100 )

A large DOM will increase memory usage, cause longer [style calculations](https://developers.google.com/web/fundamentals/performance/rendering/reduce-the-scope-and-complexity-of-style-calculations), and produce costly [layout reflows](https://developers.google.com/speed/articles/reflow).

7,566 elements

Reduce JavaScript execution time ( 25 / 100 )

Consider reducing the time spent parsing, compiling, and executing JS. You may find delivering smaller JS payloads helps with this.

5.9 s

Minimize main-thread work ( 1 / 100 )

Consider reducing the time spent parsing, compiling and executing JS. You may find delivering smaller JS payloads helps with this.

14.6 s

Ensure text remains visible during webfont load ( 0 / 100 )

Leverage the font-display CSS feature to ensure text is user-visible while webfonts are loading.

Reduce the impact of third-party code ( 0 / 100 )

Third-party code can significantly impact load performance. Limit the number of redundant third-party providers and try to load third-party code after your page has primarily finished loading.

Third-party code blocked the main thread for 3,650 ms

Does not use passive listeners to improve scrolling performance ( 0 / 100 )

Consider marking your touch and wheel event listeners as `passive` to improve your page's scroll performance.

Avoid `document.write()` ( 0 / 100 )

For users on slow connections, external scripts dynamically injected via `document.write()` can delay page load by tens of seconds.

Image elements do not have explicit `width` and `height` ( 0 / 100 )

Set an explicit width and height on image elements to reduce layout shifts and improve CLS.

Cumulative Layout Shift ( 100 / 100 )

Cumulative Layout Shift measures the movement of visible elements within the viewport.

Properly size images ( 100 / 100 )

Serve images that are appropriately-sized to save cellular data and improve load time.

Defer offscreen images ( 100 / 100 )

Consider lazy-loading offscreen and hidden images after all critical resources have finished loading to lower time to interactive.

Potential savings of 3 KiB

Minify CSS ( 100 / 100 )

Minifying CSS files can reduce network payload sizes.

Minify JavaScript ( 100 / 100 )

Minifying JavaScript files can reduce payload sizes and script parse time.

Enable text compression ( 100 / 100 )

Text-based resources should be served with compression (gzip, deflate or brotli) to minimize total network bytes.

Potential savings of 2 KiB

Initial server response time was short ( 100 / 100 )

Keep the server response time for the main document short because all other requests depend on it.

Root document took 430 ms

Avoid multiple page redirects ( 100 / 100 )

Redirects introduce additional delays before the page can be loaded.

Potential savings of 630 ms

Preload key requests

Consider using `<link rel=preload>` to prioritize fetching resources that are currently requested later in page load.

Use HTTP/2 ( 100 / 100 )

HTTP/2 offers many benefits over HTTP/1.1, including binary headers and multiplexing.

Use video formats for animated content ( 100 / 100 )

Large GIFs are inefficient for delivering animated content. Consider using MPEG4/WebM videos for animations and PNG/WebP for static images instead of GIF to save network bytes.

Remove duplicate modules in JavaScript bundles ( 100 / 100 )

Remove large, duplicate JavaScript modules from bundles to reduce unnecessary bytes consumed by network activity.

Avoid serving legacy JavaScript to modern browsers ( 100 / 100 )

Polyfills and transforms enable legacy browsers to use new JavaScript features. However, many aren't necessary for modern browsers. For your bundled JavaScript, adopt a modern script deployment strategy using module/nomodule feature detection to reduce the amount of code shipped to modern browsers, while retaining support for legacy browsers. [Learn More](https://philipwalton.com/articles/deploying-es2015-code-in-production-today/)

Potential savings of 17 KiB

Preload Largest Contentful Paint image

Preload the image used by the LCP element in order to improve your LCP time.

Avoids enormous network payloads ( 100 / 100 )

Large network payloads cost users real money and are highly correlated with long load times.

Total size was 1,268 KiB

Avoid chaining critical requests

The Critical Request Chains below show you what resources are loaded with a high priority. Consider reducing the length of chains, reducing the download size of resources, or deferring the download of unnecessary resources to improve page load.

18 chains found

User Timing marks and measures

Consider instrumenting your app with the User Timing API to measure your app's real-world performance during key user experiences.

2 user timings

Performance budget

Keep the quantity and size of network requests under the targets set by the provided performance budget.

Timing budget

Set a timing budget to help you keep an eye on the performance of your site. Performant sites load fast and respond to user input events quickly.

Keep request counts low and transfer sizes small

To set budgets for the quantity and size of page resources, add a budget.json file.

107 requests • 1,268 KiB

Lazy load third-party resources with facades

Some third-party embeds can be lazy loaded. Consider replacing them with a facade until they are required.

Largest Contentful Paint element

This is the largest contentful element painted within the viewport. [Learn More](https://web.dev/lighthouse-largest-contentful-paint/)

1 element found

Avoid large layout shifts

These DOM elements contribute most to the CLS of the page.

Avoid long main-thread tasks

Lists the longest tasks on the main thread, useful for identifying worst contributors to input delay.

20 long tasks found

Avoid non-composited animations

Animations which are not composited can be janky and increase CLS.

11 animated elements found

Network Requests

Lists the network requests that were made during page load.

Network Round Trip Times

Network round trip times (RTT) have a large impact on performance. If the RTT to an origin is high, it's an indication that servers closer to the user could improve performance.

50 ms

Server Backend Latencies

Server latencies can impact web performance. If the server latency of an origin is high, it's an indication the server is overloaded or has poor backend performance.

130 ms

Tasks

Lists the toplevel main thread tasks that executed during page load.

Diagnostics

Collection of useful page vitals.

Metrics

Collects all available metrics.

Screenshot Thumbnails

This is what the load of your site looked like.

Final Screenshot

The last screenshot captured of the pageload.

Script Treemap Data

Used for treemap app

Buttons do not have an accessible name ( 0 / 100 )

When a button doesn't have an accessible name, screen readers announce it as "button", making it unusable for users who rely on screen readers.

Heading elements are not in a sequentially-descending order ( 0 / 100 )

Properly ordered headings that do not skip levels convey the semantic structure of the page, making it easier to navigate and understand when using assistive technologies.

Image elements do not have `[alt]` attributes ( 0 / 100 )

Informative elements should aim for short, descriptive alternate text. Decorative elements can be ignored with an empty alt attribute.