How it works

Partial decarb is a chemistry steering wheel

CannaprepAI reads a COA, estimates how heat shifts acidic cannabinoids into active THC, then balances that gain against terpene retention for the effect you actually want.

Partial decarb simulator

Heat changes the chemistry before flame does

58%
THCA converted
10.9%
THC formed
95%
Terpenes kept
Demo COA
Blue Dream
SC Labs (Demo)
THCA
21.4%
THC
0.20%
Myrcene
0.81%
Limonene
0.42%
Caryophyllene
0.31%
0%5%10%15%20%25%Raw COA23.1%After heat21.5%Cannabinoids rise as THCA converts; terpenes taper by volatility
+68%
estimated flame delivery vs. smoking the same flower raw
0.760% myrcene
more heat and time remove sedating monoterpenes faster
0.303% caryophyllene
heavier sesquiterpenes tend to survive gentler protocols
The model

Three signals drive the protocol

01

THCA conversion

Temperature and time determine how much THCA becomes pre-formed THC before combustion.

02

Terpene retention

Sensitive monoterpenes fade faster; heavier sesquiterpenes tend to survive gentler heat.

03

Delivery efficiency

Pre-formed THC vaporizes ahead of the flame zone, so more of the same gram can reach you.

From demo to your flower

The simulator becomes personal after a COA scan

The chart above uses the Blue Dream demo COA. Inside the app, the same flow starts from your actual cannabinoid and terpene percentages, then scores sleep, focus, pain relief, anxiety relief, creativity, and euphoria against that specific chemistry.

ScanCamera or manual lab entry
ScoreEffect fit based on your COA
PrepareExact temperature, time, and method
Try it with your COARead the safety model