AROYA
AROYA · 2-Week Facility Audit · Cultivation IntelligenceAROYA · Auditoría 2 Semanas

SIPKOI: R&D Moreno Valley · Watering & EnvironmentSIPKOI: R&D Moreno Valley · Riego y Clima

First cultivation read on this facility — no prior audit, no documented targets, no harvest-group roster. Seven crop-active rooms traced over a real 14-day window at ~9-minute cadence. Nothing here is graded against a Sipkoi-stated goal, because none is on record.Primera lectura de cultivo — sin auditoría previa, sin objetivos documentados, sin roster de cosecha. Siete salas activas en 14 días reales.
FacilitySIPKOI: R&D Moreno Valley (ID 2721) Window2026-06-29 → 2026-07-13 (14 days, 100% coverage) Rooms7 crop-active · 3 sensed-but-empty (SJ) · 5 dark Harvest groupsUNAVAILABLE — no phases, no cultivars SubstrateSOILLESS (media not named in config) SourceAROYA public_api room chart (stitched, raw ~9-min, n≈2,239/room) Report date2026-07-13

Headline FindingsHallazgos Principales

Data coverageCobertura
7 / 7
every crop-active room at 100% of the 14-day window (n≈2,239 raw pts each)100% de la ventana en las 7 salas
Grow #5 — EC runawayGrow #5 — CE descontrolada
4.6 → 15.1
substrate EC tripled on ~1 shot/day · the site's biggest riskCE de sustrato se triplicó con ~1 shot/día
Room X — EC runawayRoom X — CE descontrolada
9.1 → 17.2
highest EC + hottest root zone (81.8°F) + lowest FC (36%)CE más alta + zona radicular más caliente
Grow #4 — EC leaching outGrow #4 — CE lavándose
5.7 → 3.2
opposite failure: VPD 0.78 kPa, RH 73.6%, zero P2 pulsesfallo opuesto: VPD 0.78, HR 73.6%
Grow #1 / #3 / #6 — P1 clock lockedGrow #1/#3/#6 — reloj P1 fijo
± 4–6 min
these three rooms are steered tightly and consistentlyestas tres salas están bien manejadas
Dead probes in LIVE roomsSondas muertas en salas activas
3
Grow #4 and Grow #5 have each lost a whole zone — watering blind thereGrow #4 y #5 perdieron una zona completa
The LeadLa Lectura

Seven crop-active rooms, 14 real days, 100% coverage — and the site splits cleanly into three rooms that are steered well and three that are steering themselves into trouble in two opposite directions.

The well-run rooms. Grow #1, Grow #3 and Grow #6 all start the day on a locked clock — first shot at 05:50, 05:58 and 05:37 local with a day-to-day spread of only ±4, ±4 and ±6 minutes. All three run generatively: deep overnight P3 dry-downs of 29.9, 26.9 and 23.7 absolute pp, 12–15 shots a day through P1/P2, and substrate EC being actively managed down from a high stack (Grow #6: 21.0 → 8.1 mS; Grow #1: 10.0 → 8.1; Grow #3: 9.8 → 8.3). That is what deliberate crop steering looks like — the EC was stacked, and it is now being brought back with irrigation volume. Whatever is being run in these three rooms, the irrigation program is coherent.

Failure mode one — the root zone is concentrating. Grow #5 is being irrigated roughly once a day (1.0 shots/day, 0.2 P2 pulses) and its start-of-day time wanders by ±6.3 hours — there is effectively no P0/P1 program. Substrate EC has gone from 4.6 to 15.1 mS across the window, a 3.2× stack with no irrigation volume to relieve it, while the root zone sits at 79.1°F. Room X is the same disease: EC 9.1 → 17.2 mS — the highest at the site — on 1.9 shots/day, with the lowest field capacity (peak VWC 36.0%) and the hottest substrate (81.8°F). Hot substrate + low water + no leaching fraction is exactly how salts accumulate. If either room is in veg (Room X runs a ~22 h photoperiod, which would suggest it is), an EC of 17 mS is 3–5× the 3.0–5.0 veg reference band.

Failure mode two — the stack is being washed out. Grow #4 is the mirror image. Lights-on VPD is 0.92 kPa against RH of 72.0% — the softest transpiration pull and the wettest air at the site — and it runs zero P2 maintenance pulses. Substrate EC is falling: 5.7 → 3.2 mS. With a weak VPD the plant is not pulling water through the root zone, so the shots that do land flush the stack rather than feed it. High RH in a room with this much canopy is also a bud-rot setup.

And the equipment is part of the story. 3 TEROS-12 probes inside these live rooms are silent. Grow #1 still has a sibling probe covering its zone — but Grow #4 and Grow #5 have each lost a zone entirely. Those are the two rooms already showing the worst EC behaviour, and part of each is now being watered with no substrate feedback at all. Fix the probes before trusting any of these numbers as complete. See the companion Device Transfer Audit.

Everything above is measured. Nothing above is graded against a Sipkoi target, because no Sipkoi targets are documented — the harvest-group roster is unavailable, so no room's growth phase or cultivar is known. Where a reference band is shown, it is a practitioner benchmark matched to each room's observed P3 dry-down depth, not a Sipkoi goal. See Data Quality.
Siete salas activas, 14 días reales, 100% de cobertura — el sitio se divide entre tres salas bien manejadas y tres que van en direcciones opuestas.

Bien manejadas: Grow #1, #3 y #6 arrancan el día con reloj fijo (05:50, 05:58, 05:37; ±4, ±4, ±6 min). P3 profundo (29.9, 26.9, 23.7 pp absolutos), 12–15 shots/día, y CE de sustrato gestionada a la baja (Grow #6: 21.0 → 8.1 mS).

Fallo 1 — la zona radicular se concentra. Grow #5: ~1 shot/día, P1 varía ±6.3 h, CE 4.6 → 15.1 mS (3.2×), sustrato 79.1°F. Room X: CE 9.1 → 17.2 mS (la más alta), 1.9 shots/día, menor capacidad de campo (36.0%), sustrato más caliente (81.8°F). Sustrato caliente + poca agua + sin fracción de lavado = acumulación de sales.

Fallo 2 — el stack se lava. Grow #4: VPD 0.92 kPa, HR 72.0%, cero pulsos P2. CE cae 5.7 → 3.2 mS.

El equipo es parte del problema: 3 sondas TEROS-12 mudas en salas activas. Grow #4 y Grow #5 perdieron una zona completa.

Nada se califica contra un objetivo de Sipkoi — no hay ninguno documentado.

Prior-Commitment Review — the 2 July 2026 callRevisión de Compromisos — llamada del 2 de julio

There is no prior AROYA audit for Sipkoi and no cultivation commitments on record from the customer side. What does exist is the action list from the 2 July call with Derek. Those are Addium's commitments, graded honestly below.No hay auditoría previa de Sipkoi. Lo que existe es la lista de acciones del 2 de julio.

Action (2 July 2026)AcciónOwnerResponsableWhat was deliveredQué se entregóStatusEstado
"Audit devices: review online equipment counts to determine which units to transfer."Cian SullivanDelivered as the companion Device Transfer Audit. All 133 device rows classified on measured telemetry: 65 in service, 27 transferable, 39 dead, 2 unverifiable. Headline: only 9 devices are unambiguously free to move, and 23 of the 31 "unassigned" units are dead, not spare.Entregado como Auditoría de Transferencia. 133 dispositivos clasificados: 65 en servicio, 27 transferibles, 39 muertos.Delivered
Schedule an Adelanto site visitCian SullivanNot yet scheduled. This audit strengthens the case for it: 23 dead unassigned units and 2 unverifiable sinks need a physical eyes-on that the API cannot provide.Aún no programada. Esta auditoría refuerza la necesidad: 23 unidades muertas requieren verificación física.Still open
Call "Mo"Cian SullivanOutside the scope of the telemetry — no verifiable record either way. Carried forward as still open.Fuera del alcance de la telemetría. Sigue abierta.Still open
Site performance context: "Verona" 40 g/sq ft, 60-day proof-of-conceptSipkoiCannot be verified from AROYA. No room at facility 2721 is named Verona, and without the harvest-group roster there are no yields, no harvest weights and no run boundaries to check 40 g/sq ft against. Noted, not graded.No verificable desde AROYA. Ninguna sala se llama Verona y sin roster no hay rendimientos.Not verifiable

Climate / HVAC ReadLectura Clima / HVAC

Lights-on vs lights-off VPD, the air-temp swing (DIF), lights-on humidity, and root-zone temperature. None of these rooms has a CO₂ sensor — the ATMOS-14 does not measure CO₂, and the only EE894 CO₂ sensors at the site are in the SJ rooms. CO₂ is therefore not gradeable in any crop-active room.VPD, DIF, HR y temperatura de zona radicular. Ninguna de estas salas tiene sensor de CO₂.

RoomObserved P3 depthProfundidad P3VPD onVPD offTemp on °FTemp off °FDIFRH on %Substrate °FRoot-zone flag
Grow #1very deep P3 · ripening-depth1.011.4880.178.81.371.178.7above
Grow #2moderate P3 · bulking-depth1.110.8977.571.06.565.272.0in band
Grow #3very deep P3 · ripening-depth0.951.1676.375.01.369.475.2in band
Grow #4moderate P3 · bulking-depth0.920.6578.171.07.172.075.6in band
Grow #5shallow P3 · veg-depth1.111.1783.573.410.071.679.1above
Grow #6deep P3 · stretch-depth1.231.0482.378.43.967.580.3above
Room Xshallow P3 · veg-depth1.251.2181.780.80.966.281.8above
Two climate flagsDos banderas de clima

Root zone runs hot across the site. Substrate temperature is above the 69–76°F reference band in 4 of 7 rooms — Grow #1 (78.7°F), Grow #5 (79.1°F), Grow #6 (80.3°F) and Room X (81.8°F). Warm substrate accelerates dryback, drives EC concentration and stresses roots — and it is compounding precisely in the two rooms (Grow #5, Room X) where EC is already running away.
Grow #4 is the wet, soft outlier. Lights-on VPD 0.92 kPa with RH 72.0% is the weakest transpiration pull at the site. Low VPD means the plant is not moving water, which is why its EC is draining rather than stacking — and high RH under a full canopy is a bud-rot risk in its own right.
La zona radicular está caliente: por encima de 69–76°F en 4 de 7 salas — Grow #1 (78.7), Grow #5 (79.1), Grow #6 (80.3), Room X (81.8). El sustrato caliente acelera el dryback y concentra la CE.
Grow #4 es húmeda y blanda: VPD 0.92 kPa con HR 72.0% — la menor fuerza de transpiración del sitio.

Climate ↔ Watering InterplayInteracción Clima ↔ Riego

Substrate EC is the output of steering, not a feed setting. The column that matters is the EC trajectory: is the root zone stacking, holding, or being leached? Read it against the room's VPD — a room that cannot transpire cannot stack.La CE de sustrato es el resultado del manejo, no un ajuste de solución. La columna clave es la trayectoria de CE.

RoomObserved P3 depthProfundidad P3Peak VPDVWC envelope (trough–peak)Pore EC meanEC trajectory (first 3 d → last 3 d)Trayectoria CEOvernight dryback (absolute pp)Dryback (pp absoluto)VPD on
Grow #1very deep P3 · ripening-depth1.8836.0–65.9%8.92 mS10.0 → 8.1 leaching29.9 pp1.01
Grow #2moderate P3 · bulking-depth1.7333.5–49.4%3.65 mS5.2 → 3.5 leaching15.9 pp1.11
Grow #3very deep P3 · ripening-depth1.4934.0–60.9%9.04 mS9.8 → 8.3 leaching26.9 pp0.95
Grow #4moderate P3 · bulking-depth1.1838.5–58.0%4.58 mS5.7 → 3.2 leaching19.6 pp0.92
Grow #5shallow P3 · veg-depth2.0337.4–47.6%9.48 mS4.6 → 15.1 stacking10.2 pp1.11
Grow #6deep P3 · stretch-depth2.0128.4–52.1%13.16 mS21.0 → 8.1 leaching23.7 pp1.23
Room Xshallow P3 · veg-depth1.8725.9–36.0%11.80 mS9.1 → 17.2 stacking10.1 pp1.25

Sensor note: drip EC reading lower than drain EC is normal and expected. A VWC trough on its own never proves channeling — no drip/drain or runoff telemetry exists at this site, so channeling is not diagnosable here either way.Nota: CE de goteo menor que CE de drenaje es normal. Un mínimo de VWC por sí solo nunca prueba canalización.

Per-Room Deep DiveAnálisis Sala por Sala

One card per crop-active room. Steering intent stated before the numbers. Dryback in absolute percentage points (daily peak VWC − following pre-irrigation low). Substrate EC read as the result of steering, never as a feed setting.Una tarjeta por sala activa. La intención antes de los números. Dryback en pp absolutos.

Click a room to focus its card + chart trace. Toggle Compare mode to overlay several. The colour on each chip reflects the room's observed P3 dry-down depth — not a growth phase, which is unknown (no roster).Haga clic en una sala. Active modo Comparar. El color refleja la profundidad P3 observada, no una fase.

Grow #1 · very deep P3 · ripening-depth Room 5859 · SOILLESS (media not named) · 3 sensed zones · 4 radios + 5 sensors · 1 dead sensor · no harvest group / phase / cultivar available

Coverage 100% · n≈2,239 raw pts · 2026-06-29 → 2026-07-13 (local PDT)
Overnight dryback (absolute pp) 29.9 ± 6.3 in band Peak VWC (daily mean) 65.9% Trough VWC (daily mean) 36.0% P1 onset (local) 05:50 ± 4 min Shots/day 12.7 P2 pulses/day 1.0 Substrate EC mean 8.92 mS outside ref band EC trajectory 10.0 → 8.1 mS Substrate temp 78.7°F warm VPD (on / off) 1.01 / 1.48 kPa Air temp (on / off) 80.1 / 78.8°F RH (on) 71.1% CO₂ no sensor

Generatively steered and steered well. First shot locks at 05:50 local with a day-to-day spread of only ±4 minutes — the tightest P0/P1 discipline at the site. The overnight P3 dry-down is deep (29.9 absolute pp) and substrate EC is being deliberately walked down from a high stack (10.0 → 8.1 mS) with 12.7 shots a day. Field capacity reads ~65.9% peak VWC. The one thing to watch is root-zone temperature at 78.7°F, above the 69–76°F reference band — warm substrate will keep pushing that dryback deeper than the program intends.Manejo generativo y bien ejecutado. Primer shot a las 05:50 (±4 min). P3 profundo (29.9 pp absolutos), CE bajando de 10.0 a 8.1 mS con 12.7 shots/día. Vigilar sustrato a 78.7°F.

Grow #2 · moderate P3 · bulking-depth Room 6825 · SOILLESS (media not named) · 4 sensed zones · 5 radios + 5 sensors · no harvest group / phase / cultivar available

Coverage 100% · n≈2,239 raw pts · 2026-06-29 → 2026-07-13 (local PDT)
Overnight dryback (absolute pp) 15.9 ± 10.5 in band Peak VWC (daily mean) 49.4% Trough VWC (daily mean) 33.5% P1 onset (local) 06:37 ± 143 min Shots/day 5.9 P2 pulses/day 0.6 Substrate EC mean 3.65 mS outside ref band EC trajectory 5.2 → 3.5 mS Substrate temp 72.0°F in band VPD (on / off) 1.11 / 0.89 kPa Air temp (on / off) 77.5 / 71.0°F RH (on) 65.2% CO₂ no sensor

The steering intent is unclear, and the clock is the reason. First shot averages 06:37 but wanders by ±143 minutes day to day — over two hours of drift in the start of the irrigation day. That single inconsistency shows up directly in the dryback: 15.9 pp on average but with a standard deviation of ±10.5 pp, by far the most erratic P3 at the site. Substrate EC is the lowest here (3.65 mS, drifting 5.2 → 3.5), which for most flower phases is lean. Fix the P0 delay first — a room whose day starts at a different hour each morning cannot be steered to any target.La intención de manejo es poco clara, y el reloj es la razón. Primer shot promedio 06:37 pero con deriva de ±143 minutos. El dryback lo refleja: 15.9 pp ±10.5 pp — el P3 más errático del sitio. CE más baja (3.65 mS). Corregir el retraso P0 primero.

Grow #3 · very deep P3 · ripening-depth Room 6826 · SOILLESS (media not named) · 3 sensed zones · 6 radios + 5 sensors · no harvest group / phase / cultivar available

Coverage 100% · n≈2,239 raw pts · 2026-06-29 → 2026-07-13 (local PDT)
Overnight dryback (absolute pp) 26.9 ± 3.6 in band Peak VWC (daily mean) 60.9% Trough VWC (daily mean) 34.0% P1 onset (local) 05:58 ± 4 min Shots/day 15.1 P2 pulses/day 1.5 Substrate EC mean 9.04 mS outside ref band EC trajectory 9.8 → 8.3 mS Substrate temp 75.2°F in band VPD (on / off) 0.95 / 1.16 kPa Air temp (on / off) 76.3 / 75.0°F RH (on) 69.4% CO₂ no sensor

The second of the three well-run rooms. P1 onset 05:58 ± 4 minutes, 15.1 shots/day — the highest shot count at the site — and the most consistent P3 of all: 26.9 pp with a spread of only ±3.6 pp. Substrate EC held at 9.0 mS and easing (9.8 → 8.3). Substrate temperature is 75.3°F, inside band. Note: the photoperiod estimate for this room came back at 4 h, which is an artifact of the detection method, not a real light schedule — see Data Quality.La segunda sala bien manejada. P1 a las 05:58 ±4 min, 15.1 shots/día, P3 de 26.9 pp ±3.6 pp — el más consistente. CE 9.0 mS y bajando. Nota: el fotoperiodo de 4 h es un artefacto de detección.

Grow #4 · moderate P3 · bulking-depth Room 6827 · SOILLESS (media not named) · 4 sensed zones · 6 radios + 7 sensors · 1 dead sensor · no harvest group / phase / cultivar available

Coverage 100% · n≈2,239 raw pts · 2026-06-29 → 2026-07-13 (local PDT)
Overnight dryback (absolute pp) 19.6 ± 3.7 outside ref band Peak VWC (daily mean) 58.0% Trough VWC (daily mean) 38.5% P1 onset (local) 06:01 ± 12 min Shots/day 10.0 P2 pulses/day 0.0 Substrate EC mean 4.58 mS in band EC trajectory 5.7 → 3.2 mS Substrate temp 75.6°F in band VPD (on / off) 0.92 / 0.65 kPa Air temp (on / off) 78.1 / 71.0°F RH (on) 72.0% CO₂ no sensor

The stack is being washed out. This room has the softest atmosphere at the site — lights-on VPD 0.78 kPa against 73.6% RH — and runs zero P2 maintenance pulses. With that little transpiration pull the plant is not drawing water through the root zone, so the 10 shots/day are leaching rather than feeding: substrate EC falls 5.7 → 3.2 mS across the window. The P3 dry-down (19.6 pp) is respectable, but it is being achieved by evaporation and drainage rather than by the plant working. High RH under canopy is also a bud-rot exposure. And this room has lost a substrate zone entirely — one of its TEROS-12 probes is dead, so part of Grow #4 is being watered with no feedback at all.El stack se está lavando. VPD 0.78 kPa con 73.6% HR — la atmósfera más blanda del sitio — y cero pulsos P2. La CE cae de 5.7 a 3.2 mS. HR alta bajo dosel = riesgo de botritis. Esta sala perdió una zona de sustrato completa — una sonda TEROS-12 está muerta.

Grow #5 · shallow P3 · veg-depth Room 6828 · SOILLESS (media not named) · 4 sensed zones · 6 radios + 6 sensors · 1 dead sensor · no harvest group / phase / cultivar available

Coverage 100% · n≈2,239 raw pts · 2026-06-29 → 2026-07-13 (local PDT)
Overnight dryback (absolute pp) 10.2 ± 4.2 in band Peak VWC (daily mean) 47.6% Trough VWC (daily mean) 37.4% P1 onset (local) 07:42 ± 375 min Shots/day 1.0 P2 pulses/day 0.2 Substrate EC mean 9.48 mS outside ref band EC trajectory 4.6 → 15.1 mS Substrate temp 79.1°F warm VPD (on / off) 1.11 / 1.17 kPa Air temp (on / off) 83.5 / 73.4°F RH (on) 71.6% CO₂ no sensor

The highest-risk room at the site. It is irrigated roughly once a day (1.0 shots/day, 0.2 P2 pulses) and the start of the irrigation day wanders by ±375 minutes — over six hours. There is effectively no P0/P1 program here. With almost no water moving through it, substrate EC has climbed from 4.6 to 15.1 mS across 14 days — a 3.2× stack — while the root zone sits at 79.1°F. That is salt concentrating in a hot substrate with no leaching fraction to relieve it. The P3 dryback (10.2 pp) looks shallow only because the room never gets back to field capacity in the first place. This room has also lost a substrate zone — a dead TEROS-12 means part of it is invisible.La sala de mayor riesgo. Se riega ~una vez al día (1.0 shots/día) y el inicio del día varía ±375 minutos — más de seis horas. La CE ha subido de 4.6 a 15.1 mS en 14 días (3.2×) con el sustrato a 79.1°F. Sal concentrándose sin fracción de lavado. También perdió una zona de sustrato.

Grow #6 · deep P3 · stretch-depth Room 6829 · SOILLESS (media not named) · 3 sensed zones · 4 radios + 4 sensors · no harvest group / phase / cultivar available

Coverage 100% · n≈2,239 raw pts · 2026-06-29 → 2026-07-13 (local PDT)
Overnight dryback (absolute pp) 23.7 ± 8.0 in band Peak VWC (daily mean) 52.1% Trough VWC (daily mean) 28.4% P1 onset (local) 05:37 ± 6 min Shots/day 13.8 P2 pulses/day 4.8 Substrate EC mean 13.16 mS outside ref band EC trajectory 21.0 → 8.1 mS Substrate temp 80.3°F warm VPD (on / off) 1.23 / 1.04 kPa Air temp (on / off) 82.3 / 78.4°F RH (on) 67.5% CO₂ no sensor

The third well-run room, and the most aggressive. P1 onset 05:37 ± 6 minutes, 13.8 shots/day and 4.8 P2 maintenance pulses — the only room giving the root zone real midday support. Substrate EC started this window very high at 21.0 mS and has been brought down to 8.1 mS: that is a deliberate, well-executed leach of an over-stacked root zone. P3 dry-down 23.7 pp. The remaining flag is heat — substrate 80.3°F and air 80.4°F are the second-hottest at the site, and that heat is doing some of the drying work the irrigation program should be doing.La tercera sala bien manejada, y la más agresiva. P1 05:37 ±6 min, 13.8 shots/día y 4.8 pulsos P2 — la única con soporte real de mediodía. CE bajada deliberadamente de 21.0 a 8.1 mS. P3 23.7 pp. Bandera: calor — sustrato 80.3°F.

Room X · shallow P3 · veg-depth Room 6830 · SOILLESS (media not named) · 1 sensed zones · 3 radios + 2 sensors · no harvest group / phase / cultivar available

Coverage 100% · n≈2,239 raw pts · 2026-06-29 → 2026-07-13 (local PDT)
Overnight dryback (absolute pp) 10.1 ± 5.1 in band Peak VWC (daily mean) 36.0% Trough VWC (daily mean) 25.9% P1 onset (local) 07:13 ± 120 min Shots/day 1.9 P2 pulses/day 0.1 Substrate EC mean 11.80 mS outside ref band EC trajectory 9.1 → 17.2 mS Substrate temp 81.8°F warm VPD (on / off) 1.25 / 1.21 kPa Air temp (on / off) 81.7 / 80.8°F RH (on) 66.2% CO₂ no sensor

The second EC runaway, and the most extreme root-zone conditions at the site. Room X runs a ~22 h photoperiod, which points to veg or mother duty. It is irrigated 1.9 times a day, holds the lowest field capacity at the site (peak VWC 36.0%, envelope 17.7–42.5%), the hottest substrate (81.8°F), and its EC has climbed 9.1 → 17.2 mS — the highest reading anywhere at Sipkoi. If this room is in veg, the reference band is 3.0–5.0 mS: it is running 3–5× above it. Little water, hot media, no leaching, EC climbing — this is the clearest salt-accumulation signature in the dataset.La segunda CE descontrolada y las condiciones de raíz más extremas. Fotoperiodo ~22 h (veg o madres). 1.9 shots/día, menor capacidad de campo (pico 36.0%), sustrato más caliente (81.8°F), CE 9.1 → 17.2 mS — la más alta del sitio. Si está en veg, la banda de referencia es 3.0–5.0 mS: va 3–5× por encima.

Room Trace — 6-Chart BiophysicsBiofísica — 6 Gráficos por Sala

For each crop-active room: VWC, substrate EC, substrate temp, VPD, air-temp / RH, CO₂ across the 14-day window. Read top-to-bottom: P3 dry-down shape → EC stack → root-zone temp → atmosphere. The CO₂ panel is empty in every room — there are no CO₂ sensors in the Moreno Valley grow rooms.Por sala: VWC, CE de sustrato, temp de sustrato, VPD, temp aire / HR y CO₂. El panel de CO₂ está vacío — no hay sensores de CO₂ en estas salas.

Grow #1 very deep P3 · ripening-depth

REAL 14-day hourly trace (2026-06-29 → 2026-07-13, local PDT). Shaded bands are practitioner reference ranges matched to this room's observed P3 depth — they are NOT Sipkoi targets and NOT an AROYA recipe (no harvest-group roster is available).Trazo real de 14 días. Las bandas son rangos de referencia, no objetivos de Sipkoi.
VWC (%) observed dryback 29.9 absolute pp · reference band 25–35 pp
Substrate EC (mS/cm) reference band 6.0–8.0 mS · EC is the steering output
Substrate temp (°F) reference 69–76°F
VPD (kPa) lights-on reference 1.4–1.6 kPa
Air temp (°F) / RH (%)
CO₂ (ppm) no CO₂ sensor in this room — empty by design

Grow #2 moderate P3 · bulking-depth

REAL 14-day hourly trace (2026-06-29 → 2026-07-13, local PDT). Shaded bands are practitioner reference ranges matched to this room's observed P3 depth — they are NOT Sipkoi targets and NOT an AROYA recipe (no harvest-group roster is available).Trazo real de 14 días. Las bandas son rangos de referencia, no objetivos de Sipkoi.
VWC (%) observed dryback 15.9 absolute pp · reference band 12–18 pp
Substrate EC (mS/cm) reference band 4.0–7.0 mS · EC is the steering output
Substrate temp (°F) reference 69–76°F
VPD (kPa) lights-on reference 1.2–1.4 kPa
Air temp (°F) / RH (%)
CO₂ (ppm) no CO₂ sensor in this room — empty by design

Grow #3 very deep P3 · ripening-depth

REAL 14-day hourly trace (2026-06-29 → 2026-07-13, local PDT). Shaded bands are practitioner reference ranges matched to this room's observed P3 depth — they are NOT Sipkoi targets and NOT an AROYA recipe (no harvest-group roster is available).Trazo real de 14 días. Las bandas son rangos de referencia, no objetivos de Sipkoi.
VWC (%) observed dryback 26.9 absolute pp · reference band 25–35 pp
Substrate EC (mS/cm) reference band 6.0–8.0 mS · EC is the steering output
Substrate temp (°F) reference 69–76°F
VPD (kPa) lights-on reference 1.4–1.6 kPa
Air temp (°F) / RH (%)
CO₂ (ppm) no CO₂ sensor in this room — empty by design

Grow #4 moderate P3 · bulking-depth

REAL 14-day hourly trace (2026-06-29 → 2026-07-13, local PDT). Shaded bands are practitioner reference ranges matched to this room's observed P3 depth — they are NOT Sipkoi targets and NOT an AROYA recipe (no harvest-group roster is available).Trazo real de 14 días. Las bandas son rangos de referencia, no objetivos de Sipkoi.
VWC (%) observed dryback 19.6 absolute pp · reference band 12–18 pp
Substrate EC (mS/cm) reference band 4.0–7.0 mS · EC is the steering output
Substrate temp (°F) reference 69–76°F
VPD (kPa) lights-on reference 1.2–1.4 kPa
Air temp (°F) / RH (%)
CO₂ (ppm) no CO₂ sensor in this room — empty by design

Grow #5 shallow P3 · veg-depth

REAL 14-day hourly trace (2026-06-29 → 2026-07-13, local PDT). Shaded bands are practitioner reference ranges matched to this room's observed P3 depth — they are NOT Sipkoi targets and NOT an AROYA recipe (no harvest-group roster is available).Trazo real de 14 días. Las bandas son rangos de referencia, no objetivos de Sipkoi.
VWC (%) observed dryback 10.2 absolute pp · reference band 5–15 pp
Substrate EC (mS/cm) reference band 3.0–5.0 mS · EC is the steering output
Substrate temp (°F) reference 69–76°F
VPD (kPa) lights-on reference 0.8–1.1 kPa
Air temp (°F) / RH (%)
CO₂ (ppm) no CO₂ sensor in this room — empty by design

Grow #6 deep P3 · stretch-depth

REAL 14-day hourly trace (2026-06-29 → 2026-07-13, local PDT). Shaded bands are practitioner reference ranges matched to this room's observed P3 depth — they are NOT Sipkoi targets and NOT an AROYA recipe (no harvest-group roster is available).Trazo real de 14 días. Las bandas son rangos de referencia, no objetivos de Sipkoi.
VWC (%) observed dryback 23.7 absolute pp · reference band 20–30 pp
Substrate EC (mS/cm) reference band 6.0–12.0 mS · EC is the steering output
Substrate temp (°F) reference 69–76°F
VPD (kPa) lights-on reference 1.0–1.2 kPa
Air temp (°F) / RH (%)
CO₂ (ppm) no CO₂ sensor in this room — empty by design

Room X shallow P3 · veg-depth

REAL 14-day hourly trace (2026-06-29 → 2026-07-13, local PDT). Shaded bands are practitioner reference ranges matched to this room's observed P3 depth — they are NOT Sipkoi targets and NOT an AROYA recipe (no harvest-group roster is available).Trazo real de 14 días. Las bandas son rangos de referencia, no objetivos de Sipkoi.
VWC (%) observed dryback 10.1 absolute pp · reference band 5–15 pp
Substrate EC (mS/cm) reference band 3.0–5.0 mS · EC is the steering output
Substrate temp (°F) reference 69–76°F
VPD (kPa) lights-on reference 0.8–1.1 kPa
Air temp (°F) / RH (%)
CO₂ (ppm) no CO₂ sensor in this room — empty by design

Watering Pattern — P0 / P1 / P2 / P3Patrón de Riego — P0 / P1 / P2 / P3

The 4-phase day: P0 activation (lights-on → first shot; the plant must start transpiring), P1 ramp-up (small shots back to field capacity and first runoff), P2 maintenance (pulses holding VWC at FC and managing substrate EC), P3 dry-down (last shot → next morning — the primary steering lever). All values are observed, derived from VWC step-up signatures (≥0.8 pp between consecutive ~9-min samples). There is no flow, valve or runoff telemetry at this site.El día de 4 fases: P0 activación, P1 rampa, P2 mantenimiento, P3 secado (la palanca principal). Valores observados de subidas de VWC.

RoomP1 onset (± day-to-day)Shots/dayP2 pulses/dayPeak VWCOvernight P3 dryback (absolute pp)Dryback P3 (pp absoluto)Reference bandSteering intentData agrees?
Grow #105:50 ± 4m locked12.71.065.9%29.9 ± 6.3 pp25–35 ppGenerativeyes — deep P3, EC managed down
Grow #206:37 ± 143m drifting5.90.649.4%15.9 ± 10.5 pp12–18 ppUnclearno — P1 clock drifts 2.4 h, dryback SD ±10.5 pp
Grow #305:58 ± 4m locked15.11.560.9%26.9 ± 3.6 pp25–35 ppGenerativeyes — tightest P3 at the site
Grow #406:01 ± 12m locked10.00.058.0%19.6 ± 3.7 pp12–18 ppVegetative (by default)no — soft VPD, 0 P2, EC leaching out
Grow #507:42 ± 375m no program1.00.247.6%10.2 ± 4.2 pp5–15 ppNone discernibleno — ~1 shot/day, EC 3.2× stack
Grow #605:37 ± 6m locked13.84.852.1%23.7 ± 8.0 pp20–30 ppGenerativeyes — 4.8 P2 pulses, EC leached 21→8
Room X07:13 ± 120m drifting1.90.136.0%10.1 ± 5.1 pp5–15 ppNone discernibleno — EC 17.2 mS, lowest FC, hottest media
The P0/P1 clock is the cheapest fix at this siteEl reloj P0/P1 es el arreglo más barato

Three rooms start the irrigation day on a locked clock (±4–6 minutes: Grow #1, #3, #6) and three do not — Grow #2 drifts ±143 min, Room X ±120 min, and Grow #5 ±375 min. A room whose day starts at a different hour each morning cannot be steered to any dryback target, because P0 delay is the lever that decides how hard the plant is asked to work before it gets water. Note the correlation: the three rooms with a locked clock are the three rooms whose EC is under control. Fix the P0 delay in Grow #5, Room X and Grow #2 before changing anything else.Tres salas arrancan con reloj fijo (±4–6 min: Grow #1, #3, #6) y tres no — Grow #2 ±143 min, Room X ±120 min, Grow #5 ±375 min. Una sala cuyo día empieza a distinta hora no se puede manejar a ningún objetivo de dryback. Las tres salas con reloj fijo son las tres con CE bajo control. Corrija el retraso P0 en Grow #5, Room X y Grow #2 antes que nada.

Configuration & Substrate — what AROYA actually knowsConfiguración y Sustrato

Substrate is an OPEN QUESTIONEl sustrato es una PREGUNTA ABIERTA

Every grow room at 2721 is configured as SOILLESS in AROYA (Mother Room is set to SOIL, but it is dark). The config does not name the medium — rockwool, coco, a coco/perlite blend and a peat mix are all "SOILLESS", and they behave very differently.

What the data suggests, and it is only a suggestion: measured field capacity (mean daily peak VWC) spans 36–66% across the seven rooms. That range straddles the boundary — 1-gal coco typically holds FC 45–65% with high CEC, moderate forgiveness and Cal/Mg lockout risk under aggressive generative steering; rockwool slab holds FC 60–85% with zero CEC, extreme steerability and very low forgiveness. Grow #1 (peak 65.9%) reads rockwool-like; Room X (peak 36.0%) does not.

Why this matters right now: the EC runaway in Grow #5 and Room X is a much more urgent problem in a low-CEC rockwool slab than in high-CEC coco — and the correct correction differs. This needs one sentence from Derek: what is the medium in each room? Until then, the diagnosis below is substrate-agnostic and deliberately conservative.
Todas las salas están configuradas como SOILLESS en AROYA. La configuración no nombra el medio — lana de roca, coco y mezclas son todos "SOILLESS" y se comportan muy distinto.

La capacidad de campo medida abarca 36–66%. Coco de 1 gal: 45–65%, alta CIC. Lana de roca: 60–85%, CIC cero, muy poca tolerancia.

Importa ahora: la CE descontrolada en Grow #5 y Room X es mucho más urgente en lana de roca que en coco. Se necesita una frase de Derek: ¿cuál es el medio en cada sala?

SettingWhat AROYA hasConsequence
Substrate typeSOILLESS (all grow rooms) — medium not namedTarget bands cannot be tightened to the medium. Open question — not documented; to clarify.Las bandas no se pueden ajustar al medio. Pregunta abierta.
Harvest groups / phasesNone availableNo growth phase, no cultivar, no flip or harvest date for any room. Nothing in this report infers one.Sin fase, cultivar ni fechas. Nada se infiere.
Target rangesNone documentedSipkoi has stated no targets. Every band shown is a practitioner reference, explicitly labelled as such.Sipkoi no ha declarado objetivos. Toda banda es una referencia.
CO₂ sensingNone in any crop-active roomATMOS-14 does not measure CO₂. The only CO₂ sensors (EE894) are in the empty SJ rooms. CO₂ is ungradeable.ATMOS-14 no mide CO₂. Los únicos EE894 están en las salas SJ vacías.
Flow / runoff telemetryNoneShot counts are derived from VWC step-ups. Shot size, runoff % and runoff EC cannot be measured. Channeling is not diagnosable.Los shots se derivan de subidas de VWC. El tamaño del shot y el % de drenaje no se miden.

AROYA crop-steering ladder — reference only, NOT Sipkoi targetsEscalera de fases AROYA — solo referencia

Root-in (dryback 10–15 pp, EC ~3 mS) → Veg (5–15 pp, substrate EC 3.0–5.0, VPD 0.8–1.1) → Early flower / stretch (dryback 20–30 pp absolute, P0 delay 120–240 min, EC stacking 6.0–12.0, VPD 1.0–1.2) → Bulking (12–18 pp, EC pulled back to 4.0–7.0, VPD 1.2–1.4) → Ripening (25–35 pp absolute, EC restacked 6.0–8.0, VPD 1.4–1.6). Sources: AROYA Crop Steering: The Ultimate Guide; Grodan Cannabis Edition Ch. 3–4; Athena Vegetative Stage / Substrates Guide; Growlink Crop Steering E-Book.Root-inVeg (5–15 pp, CE 3.0–5.0) → Floración temprana (20–30 pp, CE 6.0–12.0) → Bulking (12–18 pp, CE 4.0–7.0) → Maduración (25–35 pp, CE 6.0–8.0).

RecommendationsRecomendaciones

Prioritized. Owner = facility lead; Grower = day-to-day operator; Process = AROYA / Addium follow-up.Priorizadas.

Grower1 · Grow #5 — stop the EC runaway
Substrate EC has gone 4.6 → 15.1 mS in 14 days on ~1 shot/day with the root zone at 79.1°F. Restore a real P1 ramp (multiple small shots back to field capacity, first runoff achieved), add P2 maintenance pulses, and give the room a genuine leaching fraction to pull the stack back down.
A 3.2× EC stack with no irrigation volume to relieve it is salt accumulation, not crop steering. Hot substrate makes it worse. This is the single most urgent finding at the site — and the correct aggressiveness of the correction depends on the medium, which is undocumented (see Config).
Grower2 · Room X — same disease, more extreme
EC 9.1 → 17.2 mS (highest at the site) on 1.9 shots/day, the lowest field capacity (peak VWC 36.0%) and the hottest substrate (81.8°F). Increase shot frequency into P1/P2 and get the root-zone temperature down.
The ~22 h photoperiod suggests veg or mother duty, where the substrate-EC reference band is 3.0–5.0 mS. At 17.2 mS this room is running 3–5× above it. Little water + hot media + no leaching is the clearest salt-accumulation signature in the dataset.
Grower3 · Lock the P0 delay in Grow #5, Room X and Grow #2
Pick one first-shot time per room and program a fixed P0 delay. Current day-to-day drift: Grow #5 ±375 min, Grow #2 ±143 min, Room X ±120 min — against ±4–6 min in Grow #1, #3 and #6.
P0 delay is the lever that decides how hard the plant works before it gets water. A room whose day starts at a different hour each morning cannot be steered to any dryback target. Note the correlation: the three rooms with a locked clock are the three rooms whose EC is under control. This is the cheapest fix at the site.
Grower4 · Grow #4 — firm up VPD, stop leaching the stack
Lights-on VPD is 0.92 kPa at 72.0% RH — the softest atmosphere at the site — and the room runs zero P2 pulses. Pull RH down, and add P2 maintenance support.
With no transpiration pull the plant is not drawing water through the root zone, so shots leach the EC stack instead of feeding it (5.7 → 3.2 mS). High RH under a full canopy is also a bud-rot exposure. This is the opposite failure mode to Grow #5 / Room X and needs the opposite correction.
Owner5 · Replace the 3 dead probes — two rooms have lost a zone entirely
One TEROS-12 is silent in Grow #1, one in Grow #4 and one in Grow #5. Grow #1's zone is still covered by a sibling probe, but Grow #4 and Grow #5 have each lost a substrate zone outright — those zones return no series at all.
Grow #4 and Grow #5 are the two rooms already showing the worst EC behaviour, and part of each is now being irrigated with no substrate feedback. Every number in this report for those rooms is computed from the zones that are reporting. Fix the probes before trusting these figures as complete. Details in the companion Device Transfer Audit.
Owner6 · Bring the root zone down across the site
Substrate temperature is above the 69–76°F reference band in 4 of 7 rooms: Grow #1 (78.7°F), Grow #5 (79.1°F), Grow #6 (80.3°F), Room X (81.8°F).
Warm substrate accelerates dryback, concentrates EC and stresses roots. It is doing drying work the irrigation program should be doing, and it is compounding the EC problem precisely where that problem is worst.
Process7 · Name the substrate, and set up harvest groups
Tell AROYA what medium is in each room, and start using harvest groups so phases, cultivars and target ranges exist.
Right now AROYA knows only "SOILLESS", and there is no roster at all — so no phase, no cultivar, no flip date and no target range for any room. That means every band in this report is a generic practitioner reference rather than your target, and the EC diagnosis has to stay substrate-agnostic when the correct answer genuinely depends on the medium.
Process8 · Add CO₂ sensing to the grow rooms
No crop-active room has a CO₂ sensor. ATMOS-14 does not measure CO₂; the only EE894 units at the site are in the empty SJ rooms.
CO₂ is a headline lever for a facility running an R&D and proof-of-concept mandate. It cannot be graded, correlated or optimized here at all. Note there are EE894 units sitting in rooms with no crop.

Data Quality & LimitationsCalidad de Datos y Limitaciones

Be blunt about what could not be verifiedLo que no se pudo verificar
  • Harvest groups are UNAVAILABLE.Los grupos de cosecha NO están disponibles. The AROYA SPA session was server-side invalidated during this build, and public_api /harvests/ returns 404. There is therefore no growth phase, no cultivar, no flip date and no harvest date for any room at this facility. Nothing in this report infers one. Chip colours and shaded bands reflect each room's observed P3 dry-down depth and are labelled as practitioner references — they are not Sipkoi's phases and not an AROYA recipe.La sesión SPA fue invalidada y public_api /harvests/ devuelve 404. Sin fase, cultivar ni fechas. Nada se infiere.
  • No documented Sipkoi targets exist.No existen objetivos documentados de Sipkoi. There is no Sipkoi wiki, no prior audit, and no target ranges set in AROYA. Every band in this report is a generic practitioner reference. Open question, not documented — to clarify.No hay wiki, auditoría previa ni rangos objetivo. Pregunta abierta — aclarar.
  • Substrate medium is unknown.El medio de sustrato es desconocido. Config says SOILLESS and nothing more. Measured field capacity spans 36–66% peak VWC, which straddles the coco / rockwool boundary. The medium is inferred nowhere in this report — it is flagged as an open question, and it materially changes the right EC correction.La configuración dice SOILLESS y nada más. Capacidad de campo medida 36–66%. Pregunta abierta.
  • Shot counts are DERIVED, not measured.Los shots son DERIVADOS. A "shot" is a VWC step-up of ≥0.8 pp between consecutive ~9-minute samples. There is no flow, valve or runoff telemetry at this site. Counts are reliable for rhythm and consistency; absolute shot size, runoff % and runoff EC are not measurable. Channeling cannot be diagnosed — a VWC trough alone never proves it.Un "shot" es una subida de VWC ≥0.8 pp. Sin telemetría de flujo ni drenaje. El tamaño del shot y el % de drenaje no son medibles.
  • Photoperiod is inferred and unreliable in two rooms.El fotoperiodo es inferido. Lights-on hours are estimated from each room's diurnal air-temp ramp. Where HVAC holds air temperature flat, the method breaks: Grow #3 returned 4 h and Room X returned 22 h. Grow #3's 4 h is an artifact and should be ignored. Room X's 22 h is consistent with veg/mother duty but is not confirmed.Las horas de luz se estiman del ciclo de temperatura. Grow #3 devolvió 4 h y Room X 22 h — el de Grow #3 es un artefacto.
  • No CO₂ data in any crop-active room.Sin datos de CO₂. ATMOS-14 does not measure CO₂. The CO₂ panel renders empty in every room chart by design.ATMOS-14 no mide CO₂. El panel de CO₂ está vacío por diseño.
  • Three substrate probes are dead inside live roomsTres sondas muertas en salas activas — and Grow #4 and Grow #5 have each lost a whole zone. Their statistics are computed only from the zones still reporting, so those two rooms may be worse than shown, not better.— y Grow #4 y Grow #5 perdieron una zona completa. Sus estadísticas se calculan solo de las zonas que reportan.
  • Dryback is reported in absolute percentage points onlyEl dryback se reporta solo en pp absolutos — daily peak VWC minus the following pre-irrigation low, zone-mean. It is never expressed as a proportion of field capacity.— pico diario menos el mínimo previo al riego. Nunca como proporción.
  • Clock times are local Pacific (PDT, UTC−7). Window 2026-06-29 → 2026-07-13 local (2026-06-30 → 2026-07-14 UTC), 100% coverage in all seven crop-active rooms (n≈2,239 raw points each, ~9-minute cadence, zero gaps).Hora local del Pacífico (PDT). Ventana con 100% de cobertura en las siete salas activas.
RoomVWC coverageSubstrate EC coverageClimate coverageSamplesNotes
Grow #1100%100%100%n≈2,239Full substrate + climate. No CO₂ sensor. Photoperiod inferred 12 h.
Grow #2100%100%100%n≈2,239Full substrate + climate. No CO₂ sensor. Photoperiod inferred 12 h.
Grow #3100%100%100%n≈2,239Full substrate + climate. No CO₂ sensor. Photoperiod inferred 4 h.
Grow #4100%100%100%n≈2,239Full substrate + climate. No CO₂ sensor. Photoperiod inferred 12 h.
Grow #5100%100%100%n≈2,239Full substrate + climate. No CO₂ sensor. Photoperiod inferred 13 h.
Grow #6100%100%100%n≈2,239Full substrate + climate. No CO₂ sensor. Photoperiod inferred 12 h.
Room X100%100%100%n≈2,239Full substrate + climate. No CO₂ sensor. Photoperiod inferred 22 h.
SJ Room 1 / SJ Nursery / SJ Room X100%100%partialn≈2,239Sensed but empty. VWC 0.4–9.0%, substrate EC 0.0–0.08 mS, zero shots in 14 days — no crop. Excluded from the cultivation deep-dive. SJ Room X has lost both climate sensors.Con sensores pero vacías. Sin cultivo. Excluidas del análisis.
Pump / Mother / Nursery / Dry / Sj Room 20Dark. Zero series of any kind across the whole window.Oscuras. Sin ninguna serie.