Biotechnology is an extremely lucrative field, making biotech research and development a very high priority. That said, when it comes to making the most money, you can’t go wrong with anyone but the best. To find out which laptops are best for a career in bioinformatics, we reviewed and rated the top models on the market today.
Earlier this year, I bought a new laptop. I was torn between buying a Macbook Pro or a MacBook Air. I simply couldn’t decide. After much deliberation, I decided to go with the MacBook Air. I’ve used this notebook for a little over a month, and it has been performing well. However, I recently came across an issue with the system. During my usage, the laptop has encountered multiple issues, the most annoying of which is the “ghosting” issue.
There are a lot of laptops on the market, each offering a different set of features to make sure students have the tools they need for their courses. Work in bioinformatics can involve a lot of computation, so it’s important to choose a laptop that has a fast processor and is capable of running multiple programs at the same time.
Bioinformatics is the understanding of biological data by combining computer science, information technology, mathematics and statistics through the analysis of biological data, according to Wikipedia. In computer science, desktops and laptops are important when it comes to bioinformatics because you literally need computing power for analysis and space for data storage. In this article we list the best laptops for bioinformatics. There’s also a guide at the end of the article to help you narrow down your laptop search if you don’t think any of the laptops on the list will meet your needs. What you should know about your laptop You are looking at the ultimate workstation for data processing. With its Unix-based operating system, the Apple MacBook Pro is perfect for bioinformatics. Solid computing power at a reasonable price. ASUS VivoBook 15 is up to the task. Photo by 
What you should know about your laptop You are looking at the ultimate workstation for data processing. Photo by 
What you should know about your laptop With its Unix-based operating system, the Apple MacBook Pro is perfect for bioinformatics. Photo by 
What you should know about your laptop Solid computing power at a reasonable price. ASUS VivoBook 15 is up to the task. Last updated 11.06.20 at 08:05 / Affiliate links / Images from the Amazon Product Advertising API.
| Overview | Name | Rating | Processor, graphics and RAM | |
|---|---|---|---|---|
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Intel Core i7, NVIDIA GTX 1650 Ti, 16GB | |||
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Intel Core i7, AMD Radeon Pro 5300M, 16GB | |||
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Intel Core i7, Intel HD Graphics, 16GB | |||
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Intel Core i7, NVIDIA GeForce MX250, 32 GB | |||
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AMD Ryzen 7, AMD Radeon RX Vega 8, 12 GB | |||
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Intel Core i5, Intel HD Graphics, 16GB |
These are the best laptops for bioinformatics
Professionals
- A solid performance
- Lightweight
- Long battery life
PROCESSIVE: Intel Core i7 | Graphics : NVIDIA GTX 1650 Ti | RAM : 16GB | Screen : 15 6″ FHD (1920*1080) IPS level | Memory : 512 GB SSD The Dell XPS 15 is a Linux-compatible laptop that can handle your data sets to some extent. It is solidly built with aluminum construction and weighs 4 pounds at a thickness of less than an inch. One of the lightest notebooks in the world. It is equipped with a 6-core Intel Core i7 processor and 16 GB of RAM. It also has a 512GB PCIe SSD that doesn’t immediately run out of capacity. The screen is bright, luminous and displays colors accurately. It has a 15.6-inch IPS display with Full HD (1920 x 1080) resolution and 500 nits brightness. On the port side, there are two USB 3.1 and Thunderbolt 3. Thunderbolt 3 is great because it allows you to connect multiple external monitors. The battery life of the Dell XPS 15 is decent. The average operating time is 9 to 10 hours under normal use. The Dell XPS 15, on the other hand, runs at full speed thanks to its powerful hardware. The good news is that this only happens when you play games.
- The best laptops for science and data analysis
The Dell XPS 15 has enough power, battery life and portability to handle QIAGEN, WGS, RNA-Seq, WES, etc., even if the computing power is not sufficient for very complex tasks. You can use cloud computing services to process your data. Overall, this is the best bioinformatics laptop you can get. Professionals
- Great performance
- Lightweight and portable
- Large screen
PROCESSIVE: Intel Core i7 | Graphics : AMD Radeon Pro 5300M | RAM : 16GB | Screen : 16″ Retina display (3072×1920) Memory: 512 GB SSD The MacBook Pro is one of Apple’s most powerful workstations. Apple has packed the best hardware components into a slim package. Made of aluminum and weighing about 4 pounds, it is a laptop computer. The 16-inch Retina display (3072×1920) is also one of the best in the world. Brightness, clarity and color accuracy. The viewing angles are also excellent. The choice of a port is a blessing and a curse. You have four Thunderbolt 3 ports to which you can connect external monitors with 4K resolution. Unfortunately, there is no USB Type-A available. The lack of USB Type-A means you always have to carry a docking station, which you may not like. Battery life is impressive, even with powerful hardware. Average usage time of 9-10 hours under normal use. The execution is also excellent. An Intel Core i7 with six cores, 16 GB RAM and 512 GB SSD. MacOS has everything you need to work with datasets, and it’s also Linux-based, so you won’t have any problems running bioinformatics programs. High performance, solid build quality and a Linux-based operating system make the Apple MacBook Pro one of the best computers for bioinformatics. Professionals
- Built like a tank
- Robust performance
- Above-average battery life
- Large keyboard
PROCESSIVE: Intel Core i7 | Graphics : Intel HD Graphics | RAM : 16GB | Screen : 15.6″ Full HD (1920 x 1080) Memory: 500GB SOLID STATE DRIVE Besides the above-average performance of the Intel Core i7 and 16 GB of working memory, the Lenovo ThinkPad E15 has excellent build quality. The rugged design familiar to all ThinkPads. In other words: It will last a very long time. The Lenovo ThinkPad E15 is also a lightweight laptop that you can easily take to the office. And if you have to run codes and numbers all the time, why not buy a good model? The Lenovo ThinkPad E15’s keyboard isn’t as good as that of the Lenovo ThinkPad X1 series, but it’s better than that of many laptops. The keyboard is very nice and the touch feedback is excellent. You can enter thousands of numbers and your fingers won’t get tired. Battery life is above average, lasting 8-9 hours with constant number input. Overall, the Lenovo ThinkPad E15 is one of the best laptops for bioinformaticians and PhD students. The only drawback is that the color reproduction of the screen is not very accurate. I highly recommend it. Professionals
- Robust performance
- Grand Prix
- Decent battery life
- Thin and light
PROCESSIVE: Intel Core i7 | Graphics : NVIDIA GeForce MX250 | RAM : 32 GB | Screen : 15.6″ Full HD (1920 x 1080) Touchscreen Memory: 256GB SSD + 1TB HDD For those who need the best laptop for bioinformatics, the HP Pavilion 15 is a reliable laptop that offers many benefits. The HP Pavilion may not be as powerful or flashy as high-end laptops, but it gets the job done. With an Intel Core i7 processor and 32 GB, you have a very powerful laptop for big data analysis. You can easily multitask and run multiple applications in the background. The HP Pavilion 15 also has plenty of storage capacity – a 256GB SSD and a 1TB hard drive – to accommodate your data tables. 15.6-inch Full HD (1920 x 1080) IPS touchscreen. Color accuracy and reproduction are average at best. The screen is mediocre at best and rather weak. As for battery life, the HP Pavilion 15 can work for 7 to 8 hours on a normal charge. The battery charge is more than enough for a day’s work. Overall, the HP Pavilion 15 is the best laptop for bioinformatics. Because it’s fast, thanks to the Intel Core i7 and 32GB of RAM. Professionals
- Grand Prix
- Robust performance
- Beautiful design
- Thin and light
PROCESSIVE: AMD Ryzen 5 | Graphics : AMD Radeon RX Vega 8 | RAM : 12 GB Screen : 15.6″ Full HD (1920 x 1080) Memory: 512 GB SSD The ASUS VivoBook 15 is an affordable bioinformatics laptop, making it a good choice for frugal users and students. It’s one of the most stylish laptops you’ll ever use. It’s also a lightweight, easy-to-carry laptop. For a reasonable price, the performance is excellent. With an AMD Ryzen 7 processor and 12GB of RAM, your ASUS VivoBook 15 won’t be slow. Moreover, the SSD ensures the responsiveness of the laptop system due to its high transfer speed. This makes it a reliable option for processing medium-sized biological data sets. The screen of the laptop is decent. Good clarity and sharpness. However, the viewing angles are not very good. The battery life is also decent. ASUS VivoBook 15 is designed for 6 to 7 hours of continuous use. With some settings, you can reach 7-8 hours. In summary, the ASUS VivoBook 15 is the best bioinformatics laptop you can buy. Excellent value for money and battery life. Professionals
- Robust performance
- Simple configuration
- Available on
Disadvantages
- Noisy fans
- Not the best battery life
PROCESSIVE: Intel Core i5 | Graphics : Intel HD Graphics | RAM : 16GB | Screen : 15.6″ Full HD (1920 x 1080) anti-glare | Memory: 128GB SSD + 1TB HDD Dell laptops are known for their excellent Linux compatibility, and the Dell Inspiron 15 5000 is no exception. Plus, it’s an affordable device that you don’t have to break the bank for. For a fuel-efficient device, the performance is impressive. The Intel Core i5 is used as the central processor. It also comes with 16GB of RAM and a 256GB SSD. Sufficient RAM for bioinformatics datasets and enough storage space for your files. The screen of the Dell Inspiron is not impressive. And frankly, it doesn’t matter. All that matters is that you can see the data. The Dell Inspiron’s fans activate under heavy load, which is essential to keep the laptop cool. Battery life is below average at 8 hours. In constant use this is 5 to 6 hours. It’s okay, but still below average. Overall, the Dell Inspiron 15 5000 is an economical laptop for bioinformatics. And the fact that it’s an excellent Linux-compatible laptop makes it easy to recommend.
What to look for when choosing the best bioinformatics laptop
Here are some things to consider when looking for a bioinformatics laptop.
CPU/Processor
Any processor will do. But for maximum performance, you should always choose the latest and greatest processors you can afford. Multi-core and multi-threaded processors are recommended. That is, anything greater than or equal to AMD Ryzen 5 or Intel Core i5. This ensures optimal performance and the ability of the notebook to meet ever-increasing demands.
How much RAM do you need for bioinformatics?
The minimum amount of RAM you need is 16 GB. The recommended capacity is 32 GB. Virtual machines and scans can quickly use up your memory if it is not sufficient. Buy as much as you can afford. With enough RAM, your laptop will be ready for the future and you won’t have to worry about running out of RAM when you have multiple programs open. Even if you bought a laptop with 8 GB of RAM, you should quickly upgrade to 12 or 16 GB of RAM.
Storage
As much as possible. SSDs are recommended because they are faster and run more smoothly. You can also opt for a hard drive because it is cheaper. This gives you plenty of storage space. If this is not possible, buy an external hard drive or SSD. The data sets can be very large.
Operating system
Linux, macOS and Windows are the preferred operating systems depending on the bioinformatics software you want to use as each system has its own requirements. Therefore, before you buy a laptop, you should know which bioinformatics software to use and the system requirements.
Final thoughts
So much for the best laptops for bioinformatics. You can use cloud computing for your work. But you still need solid hardware if you can’t access the cloud and have to rely on the processing power of a laptop.Billions of dollars are spent every year on analyzing data from the human genome. However, you can only get so much out of a single genome sequence, and you need a lot of data to find patterns in the sequences, to find out how protein coding genes work. You also need a lot of machines to run the analysis. The amount of data is growing exponentially every year and the resources required to analyze it are also growing exponentially.. Read more about laptop for bioinformatics 2020 and let us know what you think.
Frequently Asked Questions
Which laptop is best for bioinformatics?
The best laptops for bioinformatics have been a hotly debated topic in the past few years. For a long time, the only laptop that was considered good for bioinformatics was the Macbook Pro. However, over recent years, the entry-level MacBook Pro has been supplanted by the higher-end Retina models. With the two competing in the same price range, which should you choose? The world of biomedical computing has been revolutionized by the advent of the modern laptop as a tool for research. In the past five years laptops have become the tool of choice for virtually all biological tasks, including data analysis, image processing, data visualization and even bioinformatics jobs (e.g., microarray analysis).
How much RAM do I need for bioinformatics?
The bioinformatic community is growing at an incredibly fast rate. Advances in both computing power and the sequencing of the human genome have led to a new breed of scientific applications that can be executed using a lightweight computer. Such data-intensive projects can require a minimum of 2 GB of RAM and a minimum of two to three times the power of an average laptop. As you can imagine, this is critical for the success of any scientific research project that involves the use of computers. Bioinformatics is an emerging field that relies on the use of computers to analyze biological systems. As a result, many scientists and researchers who work with these systems use large amounts of RAM.
Which laptop is best for data analytics?
As a bioinformatician, I have to keep up to date with the current tools that are available to me. I typically use a laptop for my daily work, so the performance of it is crucial for me. Nowadays, there are many laptops on the market, I understand that we find them all really useful. I did not find that I could find a clear winner from them as they all possess their own advantages and disadvantages. So, I decided to do a thorough research on the market and help the readers of this article to decide which laptop is best for their work. Here is my review of the top 6 laptops for bioinformatics. The best laptops for data analytics vary depending on the job you want to do, your computer skills, and what you can afford. Buying a laptop for data analytics can range from $500 to $5,000, so it is important to find a laptop that is right for your needs.
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