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PCI Express 2.0 x16: 3 x PCIe 2.0 x16 (dual x16 or x16/x8/x8).1 1 x PCIe 2.0 x16 (x4 mode, black).1: When running dual graphics cards, be sure to insert the card in the first and third PCIex16 slot to get the best performance. 301 Moved Permanently. Casino Online 1xSlots Poker, Roulette, Slots 🤑 Live & Free 🤑 Play casino games online for real money ☛ Guaranteed payments Quick withdraw money Bonus game 100% real earning Visit the online casino Play and win! Each lane is capable of speeds from 250-1969 MB/s, depending on the version of the PCIe protocol (v1.x, v2.x, v3.0, v4.0). PCIe cards can always operate in PCIe slots with the same or more lanes than the card. For example, an x8 card can operate in a slot with x8, x16, or x32 lanes. Similarly, an x1 card can operate in any PCIe slot.
In a previous blog post, we covered the difference between PCI and PCI-X. The response to the post was enthusiastic, and we were asked to write a complementary post explaining the difference between PCIe x1, x4, x8, x16. We are always happy to answer customers’ questions (feel free to contact us with your questions regarding industrial computers).
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The short answer is:
- ‘PCIe x1’ connections have one data lane
- ‘PCIe x4’ connections have four data lanes
- ‘PCIe x8’ connections have eight data lanes
- ‘PCIe x16’ connections have sixteen data lanes
The long answer:
The more data lanes in a connection, the more bandwidth between the card and the host. However, there is usually a cost increase incurred with higher lane counts.
PCIe is an updated version of the PCI protocol. Similar to PCI/PCI-X interfaces, PCIe was developed for peripheral component interconnection. PCIe differs from PCI/PCI-X in several ways, but this blog won’t cover most of those differences. However, one key difference will allow us to better understand the differences between the variations of the PCIe protocol (x1, x4, x8, x16 and x32). That key difference is ‘parallel’ versus ‘serial’ data transmission.
In PCI and PCI-X architecture, all of the cards share parallel data lines to and from the host. Differences between card-speeds and slot-types regularly result in throttled data speeds.
In the PCIe architecture, Each card has it’s own dedicated serial data connections (lanes) to the host. This allows each card connection to achieve a bandwidth independent of other cards that may be active in the system. The number of lanes are indicated by the suffix of the PCIe protocol (×1, ×4, ×8, ×16, ×32). Each lane is capable of speeds from 250-1969 MB/s, depending on the version of the PCIe protocol (v1.x, v2.x, v3.0, v4.0).
PCIe cards can always operate in PCIe slots with the same or more lanes than the card. For example, an x8 card can operate in a slot with x8, x16, or x32 lanes. Similarly, an x1 card can operate in any PCIe slot.
caveat:
Sometimes, a PCIe slot operates with fewer data lanes than the mechanical slot-type indicates. For example, sometimes a motherboard manufacturer will use an x16 mechanical slot even though the data connection is only x8. In these cases, the higher-bandwidth card still may work (for example, an x16 card in an x16 slot with only x8 connection), if the card doesn’t require that extra bandwidth. The following image shows the PCI connections of the motherboard used in DuroPC’s RAC355. Notice ‘SLOT 1/5’ are PCIe x16 slots but only have an x8 connection. Similarly, notice how ‘SLOT 7’ uses an x8 slot but only has an x4 connection. (Click the image to see a larger version.)
You’re browsing the documentation for v2.x and earlier. For v3.x, click here.
This page assumes you’ve already read the Components Basics. Read that first if you are new to components.
In 2.6.0, we introduced a new unified syntax (the v-slot
directive) for named and scoped slots. It replaces the slot
and slot-scope
attributes, which are now deprecated, but have not been removed and are still documented here. The rationale for introducing the new syntax is described in this RFC.
Slot Content
Vue implements a content distribution API inspired by the Web Components spec draft, using the <slot>
element to serve as distribution outlets for content.
This allows you to compose components like this:
Then in the template for <navigation-link>
, you might have:
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When the component renders, <slot></slot>
will be replaced by “Your Profile”. Slots can contain any template code, including HTML:
Or even other components:
If <navigation-link>
‘s template did not contain a <slot>
element, any content provided between its opening and closing tag would be discarded.
Compilation Scope
When you want to use data inside a slot, such as in:
That slot has access to the same instance properties (i.e. the same “scope”) as the rest of the template. The slot does not have access to <navigation-link>
‘s scope. For example, trying to access url
would not work:
As a rule, remember that:
Everything in the parent template is compiled in parent scope; everything in the child template is compiled in the child scope.
Fallback Content
There are cases when it’s useful to specify fallback (i.e. default) content for a slot, to be rendered only when no content is provided. For example, in a <submit-button>
component:
We might want the text “Submit” to be rendered inside the <button>
most of the time. To make “Submit” the fallback content, we can place it in between the <slot>
tags:
Now when we use <submit-button>
in a parent component, providing no content for the slot:
will render the fallback content, “Submit”:
But if we provide content:
Then the provided content will be rendered instead:
Named Slots
Updated in 2.6.0+. See here for the deprecated syntax using the slot
attribute.
There are times when it’s useful to have multiple slots. For example, in a <base-layout>
component with the following template:
For these cases, the <slot>
element has a special attribute, name
, which can be used to define additional slots:
A <slot>
outlet without name
implicitly has the name “default”.
To provide content to named slots, we can use the v-slot
directive on a <template>
, providing the name of the slot as v-slot
‘s argument:
Now everything inside the <template>
elements will be passed to the corresponding slots. Any content not wrapped in a <template>
using v-slot
is assumed to be for the default slot.
However, you can still wrap default slot content in a <template>
if you wish to be explicit:
Either way, the rendered HTML will be:
Note that v-slot
can only be added to a <template>
(with one exception), unlike the deprecated slot
attribute.
Scoped Slots
Updated in 2.6.0+. See here for the deprecated syntax using the slot-scope
attribute.
Sometimes, it’s useful for slot content to have access to data only available in the child component. For example, imagine a <current-user>
component with the following template:
We might want to replace this fallback content to display the user’s first name, instead of last, like this:
That won’t work, however, because only the <current-user>
component has access to the user
and the content we’re providing is rendered in the parent.
To make user
available to the slot content in the parent, we can bind user
as an attribute to the <slot>
element:
Attributes bound to a <slot>
element are called slot props. Now, in the parent scope, we can use v-slot
with a value to define a name for the slot props we’ve been provided:
In this example, we’ve chosen to name the object containing all our slot props slotProps
, but you can use any name you like.
Abbreviated Syntax for Lone Default Slots
In cases like above, when only the default slot is provided content, the component’s tags can be used as the slot’s template. This allows us to use v-slot
directly on the component:
This can be shortened even further. Just as non-specified content is assumed to be for the default slot, v-slot
without an argument is assumed to refer to the default slot:
Note that the abbreviated syntax for default slot cannot be mixed with named slots, as it would lead to scope ambiguity:
Whenever there are multiple slots, use the full <template>
based syntax for all slots:
Destructuring Slot Props
Internally, scoped slots work by wrapping your slot content in a function passed a single argument:
That means the value of v-slot
can actually accept any valid JavaScript expression that can appear in the argument position of a function definition. So in supported environments (single-file components or modern browsers), you can also use ES2015 destructuring to pull out specific slot props, like so:
This can make the template much cleaner, especially when the slot provides many props. It also opens other possibilities, such as renaming props, e.g. user
to person
:
You can even define fallbacks, to be used in case a slot prop is undefined:
Dynamic Slot Names
New in 2.6.0+
Dynamic directive arguments also work on v-slot
, allowing the definition of dynamic slot names:
Named Slots Shorthand
New in 2.6.0+
Similar to v-on
and v-bind
, v-slot
also has a shorthand, replacing everything before the argument (v-slot:
) with the special symbol #
. For example, v-slot:header
can be rewritten as #header
:
However, just as with other directives, the shorthand is only available when an argument is provided. That means the following syntax is invalid:
Instead, you must always specify the name of the slot if you wish to use the shorthand:
Other Examples
Slot props allow us to turn slots into reusable templates that can render different content based on input props. This is most useful when you are designing a reusable component that encapsulates data logic while allowing the consuming parent component to customize part of its layout.
For example, we are implementing a <todo-list>
component that contains the layout and filtering logic for a list:
Instead of hard-coding the content for each todo, we can let the parent component take control by making every todo a slot, then binding todo
as a slot prop:
Now when we use the <todo-list>
component, we can optionally define an alternative <template>
for todo items, but with access to data from the child:
However, even this barely scratches the surface of what scoped slots are capable of. For real-life, powerful examples of scoped slot usage, we recommend browsing libraries such as Vue Virtual Scroller, Vue Promised, and Portal Vue.
Deprecated Syntax
The v-slot
directive was introduced in Vue 2.6.0, offering an improved, alternative API to the still-supported slot
and slot-scope
attributes. The full rationale for introducing v-slot
is described in this RFC. The slot
and slot-scope
attributes will continue to be supported in all future 2.x releases, but are officially deprecated and will eventually be removed in Vue 3.
Named Slots with the slot
Attribute
Deprecated in 2.6.0+. See here for the new, recommended syntax.
To pass content to named slots from the parent, use the special slot
attribute on <template>
(using the <base-layout>
component described here as example):
Or, the slot
attribute can also be used directly on a normal element:
There can still be one unnamed slot, which is the default slot that serves as a catch-all for any unmatched content. In both examples above, the rendered HTML would be:
Scoped Slots with the slot-scope
Attribute
Deprecated in 2.6.0+. See here for the new, recommended syntax.
To receive props passed to a slot, the parent component can use <template>
with the slot-scope
attribute (using the <slot-example>
described here as example):
Here, slot-scope
declares the received props object as the slotProps
variable, and makes it available inside the <template>
scope. You can name slotProps
anything you like similar to naming function arguments in JavaScript.
Here slot='default'
can be omitted as it is implied:
The slot-scope
attribute can also be used directly on a non-<template>
element (including components):
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The value of slot-scope
can accept any valid JavaScript expression that can appear in the argument position of a function definition. This means in supported environments (single-file components or modern browsers) you can also use ES2015 destructuring in the expression, like so:
Using the <todo-list>
described here as an example, here’s the equivalent usage using slot-scope
: