041 move instructions
您好,在这个视频中,我们将学习更多指令,好的,现在有多少指令有效?
Hello, in this video, we are going to learn more instruction, OK, now how much instruction is working?
我们将把一个数据从源数据移动到目标数据。
We will move one data from source to destination data.
让我们开始吧,我将在此处添加一个功能框,这里有八个。
Let's start I will add a function box to here and it's eight here.
更多指导。
More instruction.
那么,嗯,此举的数据是什么?
So what is the, um, the data for the move?
我们需要输入数据,也需要输出数据。
We need to input data and we need output data.
好的,例如,我只想在这里输入 15 作为输出,我将写入字节零,我们将看到这两个输入和输出数据的反应。
OK, and for example, I want to right here just the 15 and as an output I will write and byte zero and we will see the reaction of these two input and output data.
让我们来到这里一和二、三和四、五和六、七和八。
Let's come to here one and two, three and four and five and six and seven and eight.
这是第一个。
This is the first one is.
还有零点零。
And zero point zero.
好的,并且。
OK, and.
并。
And to.
还有三个。
And three.
四和五。
Four and five.
还有六个。
And six.
七,这只是一口。
And seven, this is just one bite.
好的,但是,嗯,三个,好的,这里还有一个。
OK, but, um, three, OK, just one more here.
这应该是。
This should be.
不是这样的,一定是在这里。
Not like this, it must be here.
这一定是。
This must be.
还有零点七。
And zero point seven.
好的,这是一个输出。
OK, and this is an output.
Q零点零和同样的事情,接下来的网络,一、二、三、四、五、六、七、八并输出。
Q zero point zero and the same thing, the next network, one, two, three, four, five and six and seven and eight and output.
这将在某个时刻为零。
And this will be at one point zero.
还有一个。
And one.
并。
And to.
还有三个。
And three.
五。
Five.
还有七点和零点一。
And seven and zero point one.
好的,现在让我们启动模拟器,看看西蒙斯或西蒙斯传球的数据类型。
OK, now let's start our simulator and let's see the data type also for the Simons or Simmons passes.
为什么?
Why?
因为如果我们将数据或任何数字或任何值写入一个成员或字节或任何数据。
Because if we write a data or any any number or any value to one member or byte or any data.
那么到底发生了什么?
So what is happening?
我们正在写信给Hiver,好的,无论高低。
We are writing to Hiver, OK, high and lower.
例如,在 oneword 中,我们有 highbit 和 Lobi,我们首先写入 highbit,然后写入 Lobi。
For example, inside of the oneword we have high bite and Lobi we are writing high bite first and then we are writing to Lobi.
好的,首先,我们进入运行情况后,我们会看到例如,15 将激活语音,但击败浮肿等于一一一一。
OK, first of all, after we go to run situation, we will see the for example, 15 will activate the speech but which beats puffiness equals to one one one one.
这是我们可以监控的二进制文件,我们只需激活它即可。
This is the as binary that we can see that we can monitor and we will just activate for it.
好的,我们会检查一次。
OK, and we will check once.
它是否有效,正确与否。
Is it working, correct or not.
然后你就会明白了。
And then you will see understanded.
确切地。
Exactly.
和。
And.
这是正确的,确定并激活。
That's correct, and OK and activated.
现在,监视什么是活动的并且我们正在写入,您可以看到 15,因为我们正在写入 15,您可以看到这种形式,它是活动的并且零点零零点一。
Now, monitoring what is active and we are writing, you can see 15 so in because of we are writing 15, you can see this form, it is active and zero point zero zero point one.
而这一个和这个,这些都是活跃的,并且进一步以零结束。
And this one and this one, these are all active and further end by zero.
好的,我们能做什么,例如,如果就在这里 255,如果我们发送它。
OK, and what can we do, for example, if right here to two hundred and fifty five and if we send it.
会发生什么?
What will happen?
现在,您可以看到这八位处于活动状态,我们的输出为高电平并被激活,好的,因为我们正在写入 255,并且这是由 F F 编写的,所以也许我们可以。
Now, you can see this eight bit is active and our output is high and activated, OK, because of we are writing two hundred and fifty five and this by F F so this is maybe we can.
Sete,嗯,小数,不是小数,抱歉,这是Monitor 现在修改显示格式,嗯。
Sete, um, decimal, not a decimal, sorry, this is Monitor Modify now display format, um.
网络又可以,比如Automattic,不管是不是二进制格式或者显示,完全就是一八可惜,一小一一一一。
Network that can be, for example, Automattic again, it doesn't matter if and if this is as binary formatting or displaying, it is completely one eight pities, one small one and one and one.
所以我们有一个输出。
So we have an output.
想象一下我们正在写信给这里,例如,Ember Zero,好的,以及。
Imagine we are writing to here, for example, Ember Zero, OK, and.
像这样,但首先,我们需要它 m、w 和零。
Like this, but first of all, we need to it m, w and zero.
好的,将其发送给 Sepehr。
OK, send it to Sepehr.
所以现在是两百五十五,你现在会看到,因为两百五十五下降到余烬零,所以它已经改变了,你可以看到。
So now this is two hundred and fifty five, and you will see now because of the two hundred fifty five descending to Ember zero, so it has changed, you can see.
四个由 M0 开始,从零点零开始,这些电池被激活,但现在由于西蒙斯脉冲数据类型结构的结构,我们正在写入高买,因为 M 1.0 是从这两个点开始直到一点七。
Four by M0, starting from zero point zero, these batteries were activated, but now because of the structure of the simmons' pulses data type structure we are writing to high buy because of M 1.0 is starting from these two till one point seven.
这是高栏,因此已激活,零点一现在处于活动状态。
This is the high bar, so this is activated and zero point one is active now.
所以想象一下。
So imagine.
如果我们等待听到更多的声音。
If we are waiting to hear one box more.
这个盒子是交换的,好的,我们将用零做什么。
And this box is swap, OK, and what will we do m w zero to.
嗯,m w 又为零,请选择数据类型,好的,我会选择 virt。
Um, m w zero again, please select a data type, OK, I will select virt.
现在让我们将其发送到CPU。
So now let's send it to C.P.U.
现在你可以看到它已经改变了。
Now you can see it's changed.
原来是从零点开始,现在是从零点零开始。
It was starting from one point zero, now it is starting, now from zero point zero.
所以我们做了什么,我们改变了 MWI 零的咬合位置,现在是 Hibat,但没有人改变。
So what we did, we changed the bite position of the MWI zero now Hibat and nobody's changed.
还有,如果我激活的话,有多少是有效的,例如,让我们延迟这个,让我们把 M w 8 放在这里,然后发送它。
And also how much is working if I activate, for example, let's delay this one and let's put here M w eight, for example, and send it.
例如,对于 Sepehr 并移动移动到的内容,让我们将此修改操作数更改为 5。
To Sepehr and also move what moves to, for example, let's change this modify operand to five.
因此,如果我将其更改为一千五百二十八,那么毫米波零就是五。
So MMW zero is five if I change it to, for example, one thousand five hundred twenty eight.
所以这是一千五百二十八。
So this is one thousand five hundred twenty eight.
所以,莫,推动指令的动力是获得对我们投资组合的投入、价值观和权利。
So, Mo, what moves to move instruction is get input, values and rights to our portfolio.
好的,我还想记住属性。
OK, and also I want to remember in properties.
形式不是这样的,不是在这里,我们也可以为插入网络增加这个输出,不是这样的,抱歉。
Form not like this, not in here, we can increase this output also for the insert network, not like this, sorry.
首先,我想先离线,然后我想通过“不是这个,从这里插入输出”来更新您,好吗?
There is a possibility to first of all, I want to go offline first and I want to update you via take not this one, insert output from here, OK?
正确的。
Right.
单击此处并插入输出,以便我们可以写入此值以输出更多输出,例如 M W 25 和 M W 50。
Click to here and insert output so we can write this value to output more output, for example, M W 25 and M W 50, for example.
我需要再次发送。
And I need to send again.
很多,现在还好。
A lot and OK now.
它已加载,我们有自己的情况,我现在想监视它,您可以看到这是一千五百二十八,并且这些更多指令的输出已连接。
It is loaded and we have our own situation and I want to monitor it now, you can see this is one thousand five hundred twenty eight and the outputs of these more instructions is connected.
输出是相似的。
Outputs are similar.
如果我再次将此音量更改为例如五。
If I change this volume to, for example, five again.
所以这都是五个。
So these are all five.
好的,然后我们可以增加 MU 指令的输出,呃,进入我们下一个视频的幸福门户。
OK, then we can increase the output of the MU instruction, uh, into our portal happiness for this video for the next.
更多指令,更多像这样的块指令。
More instructions, more block instructions like this.
我们会学习他们。
We will learn them.
我们将在我们的软件和项目中使用它们。
We will use them in our software, in our projects.
但暂时我们需要了解 mu 指令如何工作以及 mu 指令如何影响位及其结构。
But for a moment we need to understand how mu instructions working and how mu instruction affecting to bits also and the structure of it.
我想我们已经完成并学习了。
And I guess we completed it and learned.
下一个视频见。
See you in the next video.