The comments all include links to other websites or publications. Let me first create the answer story. After reading this response, one should clearly understand Verilog HDL and where they stand in the learning process.

Verilog is not a programming language. It isn't used in any platform for development reasons, and it doesn't make programming easier (relating to scripting). It does not create an environment or user interface that is interesting.

Verilog coding builds a digital circuit for a behavioural purpose while simultaneously modelling it, resulting in digital circuits. Before moving on to Verilog, make sure the digital circuit is in your blood and not in your heart. It breaks and also fails!

How should you proceed with digital circuits? Start learning about the following topics: gates, flip-flops, shift registers, counters, adders, subtractors, multiplexers, demultiplexers, priority encoders, encoders, decoders, K-maps, boolean algebra, and De-law. Morgan's Is that all? Nope. state machines as well They form the nucleus of the design cycle.

Best references Digital Circuit :

Morris, M. digital design by Mano. You will find clear foundation in this text. You won't struggle to understand it here.

Digital Design Team at Wakerly (Pearson publication). You can acquire sophisticated digital design methods from this book.

CMOS VLSI Design by Neil Weste and David Harris Without missing a word, give the third chapter your undivided attention. maximise the depth of your comprehension. at the very least, the construction of hardware gates and flops.

Now that you've developed a digital circuit in your brain. You understand how nanoscale technology functions and how electrical impulses go from one spot to another in a finite amount of time (3rd reference in the digital circuit). Let's go on to a thorough examination of Verilog.

Best References Verilog HDL :

Verilog by Samir Palnitkar. Beginners can easily understand this text. You don't dream about actual use. It can be used to create the necessary codes for logic circuits (synthesize-able). citations for digital design Examine it to see what you are able to write.

Award-Winning Verilog & System by Cliff Cummings Papers on Verilog is a source that is cited. Consider the following quotation to be holy Verilog. Read Verilog's documentation slowly. It's gratuitous. Use this reference if you are familiar with the words timing, power, and optimization in digital circuits.

Not all codes will result in digital circuits that can be used practically. You must be familiar with each keyword's usage. In Verilog, some keywords are created solely for simulation purposes; they don't produce any logic circuits.

Never, ever attempt Discover something new on Asicworld.com. Use it only for syntax.

Never, ever, ever believe any code you find online. It's terrible. You'll understand it afterwards. It prevents anyone from growing as a result.

Having trouble learning some subjects? Try to use prominent university names in the search field. comparable to "Stanford studies digital design." Materials are created by researchers and clever people worldwide. It will enchant you.

Try to familiarise yourself with tools like ModelSim, Xilinx Vivado, and Microsemi Libero. Everyone has been set free. I wholeheartedly support Vivado.

Some suggestions suggest reading up on static timing analysis, critical pathways, and data paths. That, however, is not a part of Verilog HDL. They are all engaged in the creation of semiconductors, which uses analysis tools.

robust typing is a VHDL term. Beginners will find it more challenging to make mistakes because the compiler will stop you from creating bad code. In Verilog, weak typing is employed. You can write shorter, but inaccurate, code thanks to it.

Verilog is more like a programming language than C. Because of this, someone who is knowledgeable in C will have an easier time reading and understanding Verilog's operations.

Using VHDL involves a lot of typing. For the same task, Verilog often utilises less code.

VHDL is very deterministic, in contrast to Verilog, which can occasionally be non-deterministic.

None of these, however, are more significant than the others. You should learn Verilog or VHDL depending on which one you are more likely to use at business or in education. 

If your university uses Verilog, great! If nearby companies that you might wish to work for use VHDL, learn it! The people who use VHDL and Verilog depend greatly on where in the world you are. By entering VHDL vs. Verilog into Google Trends, you may start to receive a pretty clear indicator of which language you should be learning first.

The picture up above contains a lot of intriguing elements. The first is that VHDL and Verilog have both received about the same amount of queries on Google over the past year. This suggests that individuals who are interested in learning more about them find the two to be almost equally popular. I also saw a substantial reduction soon before Christmas, which is worthy of noting.and the New Year. I can only assume that people aren't searching for their HDL problems on Google during this time because they aren't at work or school.

In India and the US, where VHDL and Verilog appear to be almost equally popular, Google searches are most common. Verilog is slightly more popular than VHDL in the US. I am aware from personal experience that the US business sector favours Verilog whereas the defence sector typically favours VHDL. You'll observe that in Germany and France, VHDL is much more widely used than Verilog. If you are from either of these two countries, I would strongly recommend learning VHDL first! Establish your priorities because Verilog is unquestionably more popular than VHDL in China and South Korea.

Conclusion:

Verilog is an HDL used to model electronic systems, whereas VHDL is an HDL used in electronic design automation to specify digital and mixed-signal systems such as field programmable gate arrays and integrated circuits.