Apple has done a very good job when it comes to hardware design. They have gone from depending on an external brand such as Intel to apply their own designs with the M-range chips that are integrated in all the latest generation Macs. In this article we are going to compare the specifications of the M, M1 Pro and M1 Max chips.
- The first data to be differentiated
- The main differences in M1 chips
- Benchamarks also show differences
- What use can be given to each one?
The first data to be differentiated
Beyond the differences that exist in the architecture of the three chips, it is necessary to know how to distinguish other relevant aspects. Specifically, the history behind each of the processors and especially in which computers they are integrated. We will tell you everything below.
Chips that will mark history
In this case, it should be noted in advance that all the chips are going to mark history in some way. The base M1 was Apple’s first proprietary chip to be officially introduced and installed in a Mac. It was an important step in ending the relationship between Apple and Intel in order to provide it with some hardware. It is noteworthy that in this case we opted for an increase in importance in the field of performance and the reduction of energy consumption and therefore the use of available resources.
In the case of the M1 Pro and Pro Max, they were presented in 2021 at an event in October. In this case, a gigantic step in terms of power was seen, making these teams really powerful for the professional field.
Mac where they are installed
One of the big differences that can occur is that not all chips are in all Macs. That is why this compatibility must be taken into account, starting with the M1 chip that is in the following Macs :
- MacBook Pro (13-inch, 2020)
- MacBook Air 2020
- Mac mini 2020
In the case of the M1 Pro and Max chip, they can be found in the MacBook Pro that were presented together in 2021. In this way, there was a truly professional generation with all these chips that we are going to compare next.
The main differences in M1 chips
As you might expect, each of the chips that Apple has designed has differences of relevance. But we must divide all these into each of its components. In a traditional way, the hardware of a computer can be divided into GPU, CPU, memory and other relevant components. In this case, Apple is committed to grouping all the components in a single chip that fall within the M range. Next, we are going to break down all the differences that can be found in all the parts of the chip.
On your CPU
The CPU is the main part of the chip. It can be said that it acts like the brain of the computer itself by integrating all the orders that are coming to it. Its main mission will be to execute the sequence of instructions and process all the information that is received. These instructions are received for example from the different programs that are installed, whether they are native or third-party. This means at all times that if you use a program that requires a high consumption of resources when encoding the information, you should look for a processor that is always up to par.
|M1 chip||M1 Pro chip||Chip M1 Max|
|Architecture||5 nm||5 nm||5 nm|
|Transistors||16 billion||33.7 billion||57 billion|
|Number of cores||8||8 or 10||10|
|TDP||20 to 24W||60W||60W|
Having seen this data, it can be concluded that Apple opted for the M1 for 8 cores, while in the Pro and Max range it has opted for a maximum of 10 cores, although a variation of 8 cores can be found. If we talk about the construction in all three cases, we still have a 5 mm architecture, although there are differences in the transistors. The base M1 has 16 billion, the M1 Pro 34 billion and the M1 Max 57 billion. In this case, you can see an important difference, especially in the M1 Max, which has three times as many transistors as the base M1. This will allow much more information to be processed simultaneously and more efficiently.
In general we can see how a conservative design has been opted for, but with the differences in transistors and cores. Now more performance cores have been integrated to deliver higher performance as seen below.
On the GPU
Another key component in any hardware is the GPU. This is translated into the integrated graphics card that exists in the M1 chip and that encodes the graphic information. In this way you will have all the processing of the images that appear on the screen and also to carry out the processing of the different videos or images that you are going to edit. In this case, differences of relevance can also be found, as can be seen in the following table.
|M1||M1 Pro||M1 Max|
|Nuclei||7 or 8||16||32|
|Dedicated media engine?||No||Yes||Yes|
Apple with the basic M1 chip stood out for the quality of its GPU, but it has gotten better in these new generations. As we can see in the previous table, the necessary components have been integrated to be able to compete against large companies such as Nvidia or AMD . In this case we see incredible improvements with the arrival of 1 6 cores to the M1 Pro chip and 32 cores if we talk about the M1 Max.
It is in these cores where the most intense graphics processing takes place. And having more cores obviously translates into higher graphics performance. It should also be noted as an important difference that the M1 Pro has a dedicated engine for decoding and accelerated encoding. This is ideal for moving ProRes files and even handling multiple 4K or 8K video streams without being a real problem. That is why we see important improvements with respect to the base M1 chip that does not have a great graphic capacity thinking in the professional field.
It should also be noted as a differential point the presence of two hardware accelerators in the M1 Max. These two engines are also suitable for encoding and decoding ProRes files. It also gives the option of connecting up to four external monitors, something that cannot be given in the base range.
In your RAM and the rest of the features
Beyond the CPU and GPU you can also find other relevant components. Specifically, we are talking about RAM and the neural chip that also make up the architecture of the M-class chip. RAM is capable of temporarily storing some relevant data that you are using at the time. In this way, tasks can exist in the background or multitasking. In addition, it will also speed up the opening of different programs by saving data constantly. In the event that there is not enough RAM, some professional programs may not work properly on your Mac.
In the case of the base M1 chip, it has up to 16 GB of RAM in all its variants of the LPDDR4X type. But in the case of the M1 Pro chip it can be configured with up to 32 GB and the M1 Max 64 GB of memory. In all these cases we speak of a type of LPDDR5 RAM . It is clear that there is a notable difference in this case, both in the amount of RAM with which the configuration can be made and the type that also denotes its quality.
Another important aspect that we have previously discussed is that of the Neural Engine. In this case, the three chips have a 16-core chip and 11 TOPS. That is why when it comes to artificial intelligence applied to these chips they are exactly the same. Where if we see differences is in the bandwidth, since in the M1 chip a width of 68.25 Gbps was integrated, the M1 Pro of 200 Gbps and the M1 Max 400 Gbps.
Benchamarks also show differences
One of the tests that can have the most value when comparing are the benchmarks that in the end are tests that perform a stress test especially on the CPU. It is an indication of how well it can perform under full power conditions. If it is true that real performance is difficult to quantify with a number. This you will finally be able to appreciate yourself in the use that you give it daily by opening different programs. But in general, we can see the benchmark results from the following table.
|M1||M1 Pro||M1 Max|
It is important to note that the result applies to the M1 Pro and Max equally as they are the same processor and the same number of cores. In a curious way, it can be noted that if we look at single-core the results are the same in all processors. This is because the SoC is almost identical in all these situations and it is for this reason that it is logical that a fairly similar score is offered.
But this changes when we talk about multi-core results. Because Apple has changed the core architecture and the greater number of units that exist in the CPU it is logical that both the M1 Pro and the Max offer a much higher result. It is here that the importance of the increase in the high-performance cores and also of the micro-transistors can be appreciated. As we have commented previously, this is not totally accurate, but it ultimately gives a vision of how the processor has improved in the most modern M1 processors.
What use can be given to each one?
Once all the technical specifications of the processors have been detailed, the differences that exist in the use that can be given to this type of processors should also be highlighted. Next we are going to detail in both cases to whom this processor can be directed.
The M1 processor will hardly go ‘out of style’
Although we have clearly seen how the M1 Pro and Max chips are much superior to the basic generation, the latter is in no way at a disadvantage. It should be noted that this is a processor that we venture to say is valid for 90% of users. It has 8 GB of RAM and 8 CPU cores, which is more than good power to do basic tasks. And also if you need to do some editing task you can not find any problem.
If we move to the experience that can be given at the user level, the M1 chips have a performance that is quite good. In addition, in no case is it noticed that they overheat, so the fact of having a very good performance stands out. In this way it seems that you will be facing a processor that is designed for professionals, and that it will not go out of style even if there are other options that are much superior and that are clearly not indicated for a ‘basic’ user.
The M1 Pro and Max chip designed for professionals
These two chips, as we have previously commented, are designed for professionals due to the characteristics that it integrates. Having up to 32 GPU cores or 64 GB of memory is always suitable for video or image editing programs to function properly. This will reduce processing times significantly thanks to top hardware.
This can also be seen with extra encoding components for different multimedia files. Above all we are talking about ProRaw files, which in this case is only used by professionals in the sector. This encoding makes the GPU not look so overloaded when working with these files, being able to use up to 4 monitors simultaneously with these processors. So in this way we are facing a hardware focused for professionals and not for basic users who are looking for something much simpler.