Understanding consciousness remains one of science’s deepest challenges, yetmost theoretical frameworks lack computational tools that translate formal pos-tulates into testable, quantitative predictions. We present the first comprehen-sive open-source software suite implementing Cosmic Loom Theory (CLT) v1.1, afield-based framework that models biological consciousness as emergent coherenceacross coupled energetic substrates. The toolkit comprises five integrated mod-ules: (1) an Energy Resistance (´eR) phase space visualizer mapping the viableconsciousness window 0.5 ≤ ´eR ≤ 5.0 from biological measurements; (2) two-dimensional and three-dimensional Loomfield wave simulators solving the CLTwave equation via leapfrog finite-difference schemes with Mur absorbing bound-ary conditions; (3) a Hodgkin–Huxley bioelectric network simulator with gap-junction coupling and morphogenetic pattern dynamics; (4) a biophoton field simu-lator capturing four distinct emission regimes—Poissonian, coherent, squeezed, andchaotic—with Kuramoto phase synchronization; (5) a microtubule quantum coher-ence simulator modeling 13-protofilament lattices across four oscillation scales withFloquet-driven time-crystal dynamics; and (6) a DNA constraint engine govern-ing gene expression, epigenetic modulation, and species-specific viable windows.Key results demonstrate that Loomfield coherence collapses under perturbationand recovers through hysteresis, bioelectric gap-junction networks spontaneouslyform morphogenetic patterns, biophoton Fano factor signatures distinguish healthyfrom pathological states, and microtubule triplet-of-triplets resonance at golden-ratio frequency ratios (1 : φ : φ2) is selectively disrupted by anesthetic modeling.All simulators produce the unified consciousness observable Cbio and feed into a14-metric LoomSense integration layer. The suite includes 277 automated testsacross nine modules with continuous integration. All code is freely available atgithub.com/DaKingRex/Cosmic-Loom-Theory under an open-source license, pro-viding the research community with reproducible tools for investigating conscious-ness as a physical phenomenon.