Reverse Engineering: A Backwards Approach to Getting the Cannabis Yield You Need.

Are you tired of not getting the yields you want? If so, reverse engineering may be the answer. It's a powerful tool that can help maximize your yields and increase your chances of success. Let's take a look at what reverse engineering is, how it applies to cannabis cultivation, and how you can use it to reach your desired harvest weight by calculating the number of plants needed.
What is Reverse Engineering?
Reverse engineering is the process of taking an existing product or system and deconstructing it in order to understand how it works, identify its components, and determine how they interact with each other. In other words, it's a method of figuring out how something works by breaking it down into its most basic elements and then reassembling them in a different form. This can be applied to anything from computer software and hardware to manufacturing processes—and even, growing cannabis.

Unlike traditional planning methods, reverse engineering starts with the end goal in mind and identifies the necessary actions and resources to achieve it. This innovative approach has been proven to increase efficiency, improve planning and increase the chances of success for cannabis growers.

Using Reverse Engineering for Cannabis Cultivation

As a cannabis grower, one of the biggest challenges you face is increasing yield size. You may know approximately how much each plant can produce but there are many factors that can affect this number such as climate conditions, light levels, etc. After optimizing the environmental factors there's only one way to get the yield that you're looking for...

That's where reverse engineering comes in! By using a spreadsheet that takes your average plant yield into account, you can calculate exactly how many plants you need to reach your desired harvest weight. The spreadsheet also allows you to determine your break-even point so that you don't have any surprises when it comes time for harvesting.

With the Reverse Engineering Yield Spreadsheet, you will be able to:

Calculate the number of plants needed to reach your desired harvest weight
Determine your break-even point
Make more informed and strategic decisions
Improve your crop efficiency
Achieve your harvest goals

How To Use The Spreadsheet

  • Enter your goal harvest weight in the first field
  • and then enter the average grams per plant in the second field
    (this should be dry flower weight)
  • The spreadsheet will automatically generate the number of plants needed to reach your goal yield!

Benefits Of Reverse Engineering

Using reverse engineering for cannabis cultivation provides growers with several benefits including being able to make more informed decisions about their crops; improved planning; increased chances of reaching their goals; and ultimately more successful harvests. It also helps them track their progress over time which makes it easier to identify areas that need improvement so they can make adjustments as necessary. Finally, reverse engineering allows growers to accurately predict their yields which helps them better manage costs and maximize profits!

How Many Plants to Break Even?

When it comes to growing cannabis, a break even point is the point when your total revenues (the money you make from selling your crop) equals your total costs (the money you spend to produce and market the crop). In other words, you don't make or lose money - you just make back what you put in. That's why it's important to know your numbers and track expenses closely so that you can reach a break even point as quickly as possible.

How to Use the Break Even Calculator

  • First, enter your grow cycle length in weeks.
  • Then enter your average yield per plant in grams.
  • Follow that with the average selling price per pound.
  • Now fill in your monthly expenses--the spreadsheet will convert them into expenses per grow cycle.
  • Then you need to input the cost of nutrients and soil per crop.
  • And then there's a place for post-harvest expenses--like trimming.
  • And bam! It tells you how many pounds you need and the number of plants it will take to cover it based on your inputs.
And, you may be thinking "this sounds too good to be true", but here's the thing:

It's just math.

You may be hesitant to try something new, but the truth is that traditional planning methods have their limitations. Reverse engineering is the solution you've been looking for to overcome these limitations and achieve your harvest goals.

Don't let the limitations of traditional planning methods hold you back any longer. The Reverse Engineering Yield Spreadsheet is the tool you need to revolutionize your cannabis cultivation. Try the Reverse Engineering Yield Spreadsheet today and experience the benefits for yourself. With our satisfaction guarantee, you have nothing to lose, and everything to gain. Order now and take control of your cultivation and reach your harvest goals.

Thank you for considering the Reverse Engineering Yield Spreadsheet. We understand that as a cannabis grower, your time and resources are valuable, and we want to make sure that you get the most out of them.

That's why we've made it easy for you to get started with our spreadsheet. You can start using it immediately. It's user-friendly and optimized for use on your mobile phone. You won't even need a step-by-step guide on how to use it, so you can start reverse engineering your harvest goals right away.


Reverse engineering is an invaluable tool for cannabis growers who want to optimize their harvests. By understanding how various components interact with each other within an existing system or process—in this case our crops—we can develop strategies that will help us reach our goals faster and more efficiently than ever before. With its ability to calculate exact numbers based on average grams per plant as well as break-even points, this spreadsheet makes it simple for growers to get started with reverse engineering today! So why not give it a try? You could be growing bigger yields than ever before long!