Temporal Cycle Observatory

CHAKRA

Fold dated events onto every graha, daśā and planetary cycle at once. Find the frequency, read the sky, hand the result to an AI.

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◂ CHAKRA home Learn the mathematics Interstellar tour API test console

Events & signal

Reference moment & place

◉ Observatory
Timeline
Waveforms
Spectrum
Dynamics
Lagna
Sky
Almanac
Optimise + AI

The mechanism

Drag any ring to turn the whole geared orrery — every dial rotates in proportion to its period and the epoch scrubs beneath your events. The waveforms alongside shift with it; slide until the peaks sit on the event marks.
Epoch 1990.0
event now-hand coherent ring ◈ drag a ring to crank the epoch

Timeline stave

Linear view: events as gold standards, each active cycle as a return comb, green bands where two or more cycles align.
event return on an event / conjunction

Waveform superposition

Render each cycle as a waveform and stack them. Rectified doubles the beat — hard aspects fire at conjunction and opposition.

Phase-coherence spectrum

Rayleigh power vs trial period over your irregular event times. Peaks are candidate cycles; dashed guides mark the named grahas and daśās.

Dynamics & chaos

The event intervals as a dynamical system, and what commensurability tells us about long-run predictability.
Poincaré return map — Δₙ vs Δₙ₊₁
Commensurability of active cycles

Lagna & graha positions

Rāśi chart and sky-dial. Retrograde ℞, below-horizon dimmed, above-horizon arc shaded. Drag the Asc hand — the observatory solves for the nearest time with that ascendant.
South-Indian rāśi chart
Sky dial — drag Asc to time-travel
Yogas at this moment · janma-kuṇḍalī reading
Vimśottarī daśā · from this Moon
Telescope · RA/Dec · Alt/Az

Night sky

The same ephemeris, pointed at the actual sky: planets, Moon with phase, ☊☋ nodes on the ecliptic, and 45 stars including every nakṣatra yogatārā. Drag to look around. On a phone, enable sensors and hold the screen to the sky.
Dome: zenith at centre, horizon at rim, N top / E left (as seen looking up). AR: drag ⇄ to calibrate azimuth against a known object. Star positions J2000 + precession; yogatārā = traditional junction star (its longitude need not fall inside the equal-division nakṣatra span).

Sky almanac & world calendars

The reference moment read across traditions — moon phase, pañchāṅga, eclipses within ±18 months, and eight calendar systems.
Moon
Pañchāṅga & lunar mansions
Eclipses · ±18 months · click a row to jump
Sun–Earth–Moon geometry · drag the Moon — time follows
World calendars — same instant
Festivals & observances —

Traditions spanned: Indic (grahas, daśās, Jaimini, pañchāṅga, Kali / Samvatsara) · Islamic (Hijrī, tabular) · Sufi (28 manāzil al-qamar) · Buddhist (Tibetan Rabjung / Kālachakra 60-yr) · Chinese (sexagenary stem–branch) · Western (tropical planets, precessional age) · Mayan (Long Count, Tzolk'in, Haab') · plus eclipse / lunisolar cycles (Saros, Metonic). Hijrī and Samvatsara are arithmetic and can differ ±1 day / shift at Chaitra; eclipse flags use the Sun–node distance and don't resolve annular vs total.

Optimiser & AI hand-off

Search all periods for the best fit to your events under the chosen waveform, then open the finding in an AI with web search.
Run the optimiser to rank every period by how tightly your events lock onto it.
AI analysis hand-off

Prompt is built from your events, the best-fit periods, spectral peaks and — if computed — the lagna. Opens a new chat with web search.