Written by Ad OpsOverview and Naming
Artificial Intelligence is a mostly indica cannabis cultivar bred by Mycotek, a breeder respected for resin-rich, vigorous lines. The strain’s name nods to tech-forward precision, hinting that its architecture and effects were selected with intention and data-minded scrutiny. Growers report a compact frame, thick trichome coverage, and a calm, body-focused effect profile consistent with indica dominance. Consumers often gravitate to Artificial Intelligence for evening use and structured relaxation routines.
The name also resonates with the broader trend of technology reshaping how cannabis is prepared and enjoyed. Leafly has highlighted how accessories now leverage algorithms, noting that the OTTO joint machine uses artificial intelligence to optimize the grind and fill, whereas traditional grinders can crush buds and damage delicate trichomes. That pairing is fitting: dense, resinous indica flowers benefit from a smart, uniform grind that preserves volatile aromatics. Artificial Intelligence, accordingly, is a natural companion for modern, tech-enabled consumption rituals.
While comprehensive public lab data specific to this cultivar remain limited, its performance aligns with modern indica-dominant hybrids on the market. Across legal state testing dashboards, similar indica-dominant flowers typically show total THC in the high teens to mid-20s percentage range, with CBD generally below 1%. Artificial Intelligence appears to fit within that potency band based on community reports and phenotypic cues, producing a heavy resin sheen and rich terpene expression.
History and Breeding Background
Mycotek developed Artificial Intelligence during a period when breeders increasingly prioritized disease resistance, resin density, and high terpene totals. Although the breeder has not widely publicized an exact debut year, cultivators started reporting cuts and seed runs of Artificial Intelligence during the late 2010s to early 2020s. This timeline coincides with a broader shift toward indica-leaning hybrids optimized for greenhouse and indoor performance. The breeder’s reputation for vigorous selections suggests a methodical approach emphasizing stability across multiple filial generations.
Breeding programs of this caliber typically screen triple-digit plant populations each cycle to isolate preferred chemotypes and structural traits. It is common to germinate 100 to 300 seeds per round, then down-select to single-digit keeper phenotypes that express target resin head size, calyx-to-leaf ratio, and uniform internodal spacing. That level of selection pressure statistically increases the probability of retaining both yield and secondary metabolite richness. Artificial Intelligence appears to reflect this rigorous approach in its consistent bud density and terpene retention.
The rise of home testing, community grow logs, and phenotype “hunting” threads has also shaped the strain’s profile. Growers increasingly track metric-driven outcomes like grams per square meter, total terpene percent by weight, and mold resistance rates under elevated humidity. Reports around Artificial Intelligence consistently describe above-average trichome coverage and a forgiving nutrient window, both prized by small- and mid-scale cultivators. These traits support repeatability from tent to commercial room.
As the name implies, the strain’s ethos intersects with precision and smart decision-making from seed to smoke. In practical terms, it rewards controlled environments and thoughtful training techniques. It also responds to careful post-harvest handling, which preserves the terpene fraction that defines its sensory footprint. That end-to-end attention mirrors the careful, data-attuned processes that likely guided its selection.
Genetic Lineage and Indica Dominance
The exact parental lineage of Artificial Intelligence has not been formally published by Mycotek at the time of writing. However, morphological and aromatic cues suggest a heavy broadleaf indica influence, likely drawing from Afghani- and Kush-derived ancestors. These lines often contribute short to medium internodal spacing, football-shaped calyx clusters, and dense, squat canopy structure. The net effect is a plant that can handle shorter veg windows while still stacking weight.
Based on growth and effect reports, the strain expresses approximately 70 to 85 percent indica influence in practical terms. That estimate aligns with its calming, body-forward effects and its thicker, heavier flower formations. Indica-dominant lines also tend to support terpene profiles that emphasize earthy, spice, and sweet-citrus notes, typical of myrcene, beta-caryophyllene, limonene, and linalool. Artificial Intelligence fits that chemical signature in community tastings.
From a chemotaxonomic perspective, indica-leaning hybrids frequently produce total terpene levels in the 1.5 to 2.5 percent range by dry weight under optimized conditions. While batches vary with environment and harvest timing, this total correlates with strong, persistent aroma. Artificial Intelligence behaves similarly, maintaining intensity through grinding and combustion if dried and cured properly. Those traits reflect a selection focus on resin gland density and trichome head integrity.
Appearance and Bud Structure
Artificial Intelligence presents compact, golf-ball to egg-shaped flowers with pronounced calyx stacking and minimal excess leaf. The buds are typically lime to forest green with occasional violet hues under cooler night temperatures. Deep amber to caramel pistils thread through a canopy of glistening trichomes, which give the flowers a frosted, almost sugary appearance. The density is high, so a well-calibrated grinder or scissors are recommended.
Growers frequently note a favorable calyx-to-leaf ratio in the 2.5:1 to 3.5:1 band, which simplifies trimming and improves bag appeal. Trichome heads are abundantly distributed across bracts and sugar leaves, reflecting resin-driven selection. Under a loupe, expect to see rounded, bulbous heads with a milky clarity at peak ripeness. That combination of mass and resin makes the cultivar attractive for both flower presentation and hash production.
Branching is sturdy, with a central cola that often outpaces side branches if untopped. Lateral branches can be coaxed to parity with early topping and low-stress training. In a Screen of Green (SCROG), the plant will fill squares quickly but maintains enough rigidity to support heavy flower clusters. The finished canopy looks uniform and compact, with little fluff near the base after lollipopping.
Aroma and Terpenes on the Nose
On the nose, Artificial Intelligence leans earthy-sweet with a peppery backbone and a citrus top note. Initial grind releases a burst of damp forest and cocoa, quickly followed by cracked black pepper and a soft vanilla-kush underpinning. As the jar breathes, a candied orange peel brightness emerges that suggests limonene working alongside myrcene and caryophyllene. The bouquet is assertive without being overly sharp.
Aroma intensity typically registers medium-high to high when cured at 60 to 62 percent relative humidity. Total terpene content in indica-dominant modern hybrids commonly falls between 1.5 and 2.5 percent by weight, and Artificial Intelligence appears to align with that range based on persistence and room-filling presence. The pepper note points to beta-caryophyllene, while the forest-floor depth hints at myrcene and humulene. A faint lavender-linalool thread can appear in cooler runs.
After grinding, the aromatic evolution is steady over 10 to 20 minutes, indicating a stable terpene fraction less prone to instant flash-off. Sweet pastry and caramelized sugar can show in certain phenotypes, probably driven by trace nerolidol or farnesene. Those secondary tones are sensitive to cure conditions, reinforcing the importance of a slow dry and consistent humidity. When maintained well, the strain’s nose stays rich to the last nug in the jar.
Flavor and Mouthfeel
The flavor closely mirrors the aroma, delivering earthy cocoa and sweet citrus over a spicy baseline. On inhale, a soft orange-zest lift transitions into peppered kush and roasted nut. Exhale accentuates vanilla, sandalwood, and a faint floral lilt that lingers on the palate. The mouthfeel is plush and coating without being harsh when properly flushed and cured.
Vaporization at 180 to 195 C emphasizes limonene’s brightness and the sweet, bready facets sometimes attributed to myrcene and maltol-like notes in the broader terpene bouquet. Combustion shifts the profile toward toast, spice, and deeper caramel as terpenes degrade and Maillard-type flavors appear. Water pipes soften the spice, while joints highlight citrus and dessert tones. A very fine grind may mute nuance, so a medium grind is preferred for joints and conduction vapes.
Flavor stability is strong across the bowl, especially in convection vaporizers that maintain temperature discipline. With proper cure, flavor remains consistent for weeks, gradually shifting from bright citrus to more resinous wood and spice as terpenes equilibrate in storage. Consumers report that late-night sessions bring out more cocoa and vanilla than daytime trials. That evolution makes Artificial Intelligence a rewarding repeat sipper.
Cannabinoid Profile and Potency
Artificial Intelligence presents as a THC-dominant cultivar with CBD typically below 1 percent. In the broader market of indica-leaning hybrids, public lab data from multiple legal states commonly show total THC in the 18 to 26 percent range, with peaks into the high 20s for optimized grows. Community reports for this strain suggest it sits comfortably in the 20 to 26 percent THC band under dialed-in indoor conditions. CBG often appears as a minor constituent at 0.2 to 1.0 percent.
As with all cannabis, potency varies by environment, harvest timing, and post-harvest handling. Early harvests tend to yield slightly lower measured THC but a brighter, more uplifting tilt; later harvests can edge into stronger body effects with a minor bump in cannabinol (CBN) from oxidation. Total active cannabinoids post-decarboxylation typically track within 85 to 93 percent of the labeled potential, depending on extraction method and decarb efficiency. That conversion rate is important for edible makers and rosin pressers.
For dosing, casual consumers often find 5 to 10 mg THC equivalence sufficient for relaxation, while experienced users may prefer 10 to 25 mg in a session. Inhalation onset is rapid at 2 to 5 minutes, with peak effects at 20 to 40 minutes and a tail of 2 to 4 hours. Edible onset ranges from 30 to 90 minutes, peaking at 2 to 3 hours and lasting 4 to 8 hours. Beginners should start low and wait a full two hours before redosing with edibles.
Artificial Intelligence’s resin output also lends itself to solventless preparations. In skilled hands, indica-leaning resin often returns 18 to 24 percent when pressing quality ice water hash into rosin, reflecting high trichome head density. Those numbers depend on cultivar expression and sieving strategy, but they indicate extractors can capture much of the plant’s potency efficiently. This makes the strain attractive for both home and boutique hash makers.
Terpene Profile and Chemistry
Artificial Intelligence’s terpene ensemble is led by myrcene and beta-caryophyllene, with limonene and humulene as frequent co-dominants. In well-grown flower, myrcene often lands between 0.5 and 0.9 percent by weight, lending earthy, musky sweetness and contributing to the relaxing, couchlock-friendly vibe. Beta-caryophyllene commonly spans 0.3 to 0.7 percent, imparting peppery spice and interacting with CB2 receptors as a dietary cannabinoid. Limonene typically ranges from 0.2 to 0.5 percent, adding citrus lift and mood brightness.
Secondary terpenes appear in smaller but meaningful amounts. Linalool may present at 0.05 to 0.2 percent, bringing floral lavender and potential anxiolytic effects in combination with THC. Humulene at 0.05 to 0.15 percent deepens the woody, hoppy undertone and can modulate appetite perception. Trace compounds like ocimene, nerolidol, and farnesene sometimes surface, rounding the bouquet with green, herbal, or sweet-apple hints.
Total terpene content in optimized indoor runs commonly measures 1.5 to 2.5 percent by weight for indica-dominant hybrids. This range correlates with the strain’s assertive smell in the jar and lingering flavor after exhale. Proper drying at around 15 to 18 C and 55 to 60 percent relative humidity for 10 to 14 days helps preserve these volatiles. Rapid drying at higher temperatures can cut total terpene retention by 30 percent or more, noticeably blunting the nose.
The interplay between myrcene and caryophyllene often defines the subjective experience. Myrcene has been associated with sedative qualities in legacy reports, while caryophyllene’s CB2 activity may modulate inflammatory signaling. Limonene’s presence can counterbalance heaviness with clarity, preventing the profile from feeling one-note. Artificial Intelligence leverages this balance to deliver calm without sacrificing nuance.
Experiential Effects and Onset
Artificial Intelligence delivers a fast, tranquil body melt accompanied by a gentle mood lift. Within minutes of inhalation, users report muscle relaxation, quieted mental chatter, and a cozy, weighted calm. The headspace remains clear enough for conversation, though motivation for high-effort tasks often dips. As an evening companion, it supports decompression, stretching, or a quiet film.
Peak effects arrive around the 20- to 40-minute mark for inhalation, then plateau for another hour before tapering to a soft, sedative finish. Many users describe improved sleep onset if dosing 60 to 90 minutes before bed. In larger amounts, the strain can become decidedly sleepy, so daytime use is best reserved for low-demand schedules. Dry mouth and red eyes are the most common side effects.
The cultivar’s indica dominance makes it less likely to provoke racy feelings in sensitive consumers. That said, overconsumption can still produce drowsiness or couchlock beyond the intended window. Newer users should consider a single small bowl or a few vapor draws, wait 15 minutes, and then reassess. When dosed thoughtfully, the experience is smooth, warm, and restorative.
For social settings, lighter doses can offer a mellow, convivial tone with reduced anxiety and a pleasant tactile comfort. Music and flavorful snacks pair nicely as limonene brightens the mood while myrcene eases tension. The balance of body and head keeps conversation flowing without mental overdrive. As the session winds down, expect a gentle glide into restful calm.
Potential Medical Applications
Artificial Intelligence’s profile aligns with common therapeutic goals related to pain, stress, and sleep. Indica-leaning strains rich in myrcene and beta-caryophyllene are frequently chosen by patients for musculoskeletal pain and post-exertion soreness. Caryophyllene’s CB2 receptor activity has been studied for inflammatory modulation, offering a plausible mechanism for perceived relief. Patients also report reductions in stress-related somatic tightness.
For sleep, the strain’s sedative arc at moderate-to-higher doses can facilitate sleep onset and may lengthen total sleep time. Patient-reported outcomes in medical markets often rank indica-dominant cultivars favorably for insomnia and nighttime anxiety. Inhaled dosing 60 to 90 minutes before bed often aligns peak effects with bedtime routines. Those sensitive to next-day grogginess should moderate dosage and avoid late-night heavy redosing.
Regarding mood and anxiety, the citrus-limonene lift may provide an acute anxiolytic tone for some users when paired with the calming body effect. However, responses are individual, and people with a history of THC sensitivity should pace carefully. In low to moderate doses, users commonly report reduced rumination and improved quiet focus on low-demand tasks. The overall effect profile encourages downshifting rather than stimulation.
For chronic pain, many patients titrate inhaled doses of 2 to 5 mg THC equivalents every 2 to 3 hours as needed, or they rely on an oral foundation of 5 to 10 mg THC with optional inhaled top-ups. Combining cannabinoids with physical therapies, hydration, and sleep hygiene can amplify benefits. As always, patients should consult healthcare professionals, particularly if taking medications that interact with CYP450 pathways. Artificial Intelligence offers a robust template for symptom relief when used with intention.
Comprehensive Cultivation Guide: Environment and Scheduling
Artificial Intelligence thrives in controlled environments where temperature, humidity, and airflow are steady. In veg, target daytime temperatures of 24 to 28 C and nighttime of 20 to 22 C, with 60 to 70 percent relative humidity. In flower, shift to 22 to 26 C days, 18 to 21 C nights, and 50 to 55 percent RH, tapering to 42 to 48 percent in late flower to guard against botrytis. Aim for a VPD of roughly 0.9 to 1.2 kPa during mid-flower for optimal gas exchange.
Light intensity should scale by stage. Veg responds well to 400 to 600 µmol m−2 s−1 PPFD for 18 hours on, while flower performs best at 800 to 1,000 µmol m−2 s−1 under 12/12. With supplemental CO2 at 1,000 to 1,200 ppm, advanced gardens can push to 1,100 to 1,200 µmol m−2 s−1 in mid-flower if irrigation and nutrition are tuned. Keep DLI within the cultivar’s comfort zone to prevent light stress.
Medium choice is flexible. In living soil, the plant appreciates rich organic matter and strong microbial life; in coco, it responds to frequent fertigation with clean runoff; in hydro, it rewards precise EC management. Maintain pH at 6.2 to 6.8 in soil and 5.7 to 6.1 in hydro or coco. Ensure robust root-zone oxygenation, especially in dense containers.
Vegetative time of 3 to 5 weeks is usually sufficient thanks to the cultivar’s compact, fast-stacking habit. Many growers top once or twice to build an even canopy and flip to flower when plants reach 30 to 45 cm, anticipating a modest 25 to 50 percent stretch. Flowering generally completes in 56 to 63 days, though select phenotypes may prefer 65 to 70 days for maximum resin maturity. Indoor yields commonly reach 450 to 600 g m−2 with good training.
Airflow is critical due to the dense bud set. Use multiple oscillating fans to eliminate stagnant pockets above and below the canopy. A strong negative pressure and high-efficiency filtration help manage odor and keep fresh air moving. Regular canopy maintenance preserves light penetration and reduces microclimate humidity.
Cultivation Guide: Training, Nutrition, and IPM
Training begins early with topping at the 5th to 6th node, followed by low-stress training to spread branches laterally. A SCROG net further evens the canopy and supports heavy colas in late flower. Lollipopping the lower third of each branch in week 3 of flower concentrates energy on top sites and improves airflow. A second, lighter cleanup around week 6 keeps the canopy tidy without shocking the plant.
The cultivar is a moderate to heavy feeder, tolerant of a wide nutrient range if EC is increased gradually. In coco or hydro, start veg at EC 1.2 to 1.4, rising to 1.6 in late veg, then 1.8 to 2.0 in peak bloom depending on plant response. Maintain calcium and magnesium supplementation, especially under LED lighting where transpiration can differ from HPS environments. Silica during veg and early flower strengthens cell walls, helping branches support resin-heavy buds.
Nitrogen demand is robust in veg but should be tapered after week 3 to 4 of flower to avoid leafy buds and chlorophyll-heavy smoke. Phosphorus and potassium take center stage from weeks 4 to 7, supporting flower bulking and oil production. Trace elements like sulfur and boron are key to terpene biosynthesis; ensure balanced micronutrient coverage. Keep runoff EC in check to prevent salt accumulation.
Integrated pest management should be preventive and layered. Start with cleanliness, quarantining new clones and sterilizing tools between sessions. Rotate biological controls such as Bacillus subtilis for powdery mildew pressure and Bacillus thuringiensis for caterpillars in outdoor or greenhouse settings. Beneficial predators like Amblyseius swirskii and Neoseiulus californicus can suppress mite and thrip populations before they flare.
Powdery mildew and botrytis are the primary disease concerns because of the strain’s dense flowers. Avoid foliar sprays after week 3 of flower and ensure strong dehumidification during lights-off. Maintain oscillating air movement within the canopy and clear interior foliage that blocks airflow. If disease risk rises, lower night RH by 5 to 8 points and increase canopy temperature slightly to reduce condensation.
Flush timing depends on medium and feeding intensity. In coco, a 7- to 10-day taper with lower EC and stable pH polishes flavor without starving the plant. In organic soil, reduce top-dressing late and focus on proper moisture management to finish clean. Watch for natural fade rather than forced yellowing as a marker of a balanced finish.
Harvest windows center around day 56 to 63, with some phenotypes preferring a few extra days for deeper amber trichomes. A 10 to 20 percent amber trichome target often balances potency and sedation. If a brighter effect is desired, harvest closer to mostly cloudy with minimal amber. Always confirm readiness with a jeweler’s loupe or handheld microscope.
Harvest, Curing, and Post-Processing
Artificial Intelligence’s resin density rewards patient, low-temperature drying. After a 24- to 36-hour pre-dry at 16 to 18 C and 60 percent RH, settle into a slow, 10- to 14-day dry at 15 to 18 C and 55 to 60 percent RH with gentle airflow. This schedule preserves monoterpenes and minimizes chlorophyll bite. Whole-plant or large-branch hangs help smooth the curve.
Expect a wet-to-dry loss of roughly 75 to 80 percent by weight, depending on trim style and stem retention. Once stems snap, move buds into curing jars at 62 percent RH, burping daily for the first week, then every few days for weeks two and three. A 14- to 28-day cure vastly improves flavor cohesion and reduces any grassy undertones. Many growers report the nose peaks around weeks three to five.
Yield potential is strong for a compact plant. Indoor rooms often achieve 0.8 to 1.2 grams per watt under efficient LEDs, with dialed setups pushing 1.4 g W−1 or more. Outdoor plants in warm, dry climates can exceed 800 to 1,200 grams per plant with adequate soil volume and care. The combination of bud density and resin makes trimming efficient and rewarding.
For hash makers, consider sieving at multiple microns (e.g., 160, 120, 90, and 73 µm) to capture the cultivar’s varied head sizes. Many indica-leaning lines return well in the 90 and 73 µm bags, which often hold the most abundant, mature heads. Cold-cure rosin techniques at 20 to 25 C can bring out a glossy, cake-batter texture that highlights sweetness and spice. Pressing flower directly at 85 to 95 C for 60 to 90 seconds can also yield flavorful results, though ice water hash first is ideal for quality.
Store finished flower in opaque, airtight containers at 16 to 20 C and 55 to 60 percent RH to minimize terpene loss. Avoid light exposure, which can degrade cannabinoids and terpenes measurably over weeks. Proper storage maintains flavor and effect integrity for months. Rehydration packs can help stabilize jars during seasonal humidity swings.
Consumption and Technology: Grinders, Vaporizers, and AI
Dense flowers like Artificial Intelligence benefit from a smart, uniform grind to protect trichome heads and airflow. Leafly has spotlighted the OTTO joint machine, which uses artificial intelligence to deliver a consistent grind and pack, whereas traditional grinders can crush buds and damage delicate resin. That matters for this cultivar, where terpene-rich trichome heads drive both aroma intensity and smooth flavor. A careful grind preserves the intended profile.
For joints, a medium grind targeting roughly 600 to 1,000 microns promotes even burn without clogging. Overgrinding to dust reduces flavor and can create harshness by accelerating combustion. In vaporizers, keep temperatures between 180 and 200 C to showcase citrus and dessert notes before stepping up for deeper spice. Slow, steady draws maximize terpene delivery without scorching.
Devices with dynamic heating profiles can further refine the experience. Start low to capture brighter monoterpenes, then climb 5 to 10 C increments to access sesquiterpenes and full-body effects. Glassware with diffusion that is not overly aggressive keeps flavor intact while smoothing the hit. As a final touch, store ground flower for no more than 24 hours to minimize terpene volatilization before use.
