logos/ingestion_registry.json

{
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\2 bit ops to 4 bit generation scratchwork.png": {
    "mtime": 1766229543.8824837,
    "timestamp": 1767912162.519743,
    "meta": {
      "duration": 62.05567264556885,
      "context": "Context: Binary Operations to Quad-State Encoding. This document outlines a process for converting binary operations (typically represented by two-bit values) into a four-bit encoding system. The methodology involves examining the possible outcomes of bit manipulation and mapping them to specific quad-state representations. Various techniques such as bitwise shifts, logical operations, and arithmetic calculations are discussed in detail."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\2 bit ops- 00persist,01persistchange, 10 changepersist, 11 change change.png": {
    "mtime": 1766229609.7951887,
    "timestamp": 1767912230.474419,
    "meta": {
      "duration": 62.054080963134766,
      "context": "Context: Binary Operations. This dataset contains binary operations for data persistence and modification. The values represent bit combinations where the first digit (bit) determines whether to persist or change, while the second digit controls how the operation is applied."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\4 bit version of header control codes for generation keying.png": {
    "mtime": 1766176440.6376977,
    "timestamp": 1767912300.0442252,
    "meta": {
      "duration": 62.074482679367065,
      "context": "Context: ```python import json  def analyze_filename(filename):     words = filename.replace(' ', '-').split('-')          title = \"Header Control Codes\"     description = f\"Control code system for generating "
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Buckets in out 1.png": {
    "mtime": 1766176505.5800614,
    "timestamp": 1767912377.0162396,
    "meta": {
      "duration": 62.09031295776367,
      "context": "Context: ```python import re  def analyze_filename(filename):     \"\"\"     Analyze a filename to extract title and description.          :param filename: The file name to analyze     :return: A dictionary conta"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Buckets in out 1a.png": {
    "mtime": 1766229683.6946967,
    "timestamp": 1767912446.9074564,
    "meta": {
      "duration": 62.07565903663635,
      "context": "Context: Buckets in the outer space. A collection of containers used for storing items, located in an external environment."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Buckets inout select and raw.png": {
    "mtime": 1766733339.3767636,
    "timestamp": 1767912515.2857368,
    "meta": {
      "duration": 62.07451391220093,
      "context": "Context: Bucket Selection in Raw Data Processing. This filename suggests a process involving buckets, possibly for data organization or aggregation. The terms 'inout' imply input/output operations, while 'select' indicates filtering or retrieval of specific information. 'Raw' likely references unprocessed or unstructured data, which is being manipulated through this bucket-based system."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Buckets- raw.png": {
    "mtime": 1766176467.8635385,
    "timestamp": 1767912586.5567737,
    "meta": {
      "duration": 62.08598446846008,
      "context": "Context: ```python import re  def analyze_filename(filename):     \"\"\"     Analyze a filename and return a title/description based on its components.      :param str filename: The filename to be analyzed.     :"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\CakeBake.png": {
    "mtime": 1765668384.1091495,
    "timestamp": 1767912654.5192094,
    "meta": {
      "duration": 62.07900142669678,
      "context": "Context: ```python import json  def analyze_filename(filename):     title = \"cake_baking\"     description = \"The process of preparing a sweet baked dessert using flour, sugar, eggs, and butter.\"          retur"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Context compression at scale- decompress to true stream.png": {
    "mtime": 1766436908.2784822,
    "timestamp": 1767912721.5784955,
    "meta": {
      "duration": 62.08380699157715,
      "context": "Context: Context Compression. At scale, it involves decompression to a streaming format."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Delta Heat Flow.png": {
    "mtime": 1766554370.0297463,
    "timestamp": 1767912854.2709036,
    "meta": {
      "duration": 62.055856227874756,
      "context": "Context: Delta Heat Flow"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Dissolution scratch.png": {
    "mtime": 1766174709.3796747,
    "timestamp": 1767912982.5086024,
    "meta": {
      "duration": 62.0858314037323,
      "context": "Context: Dissolution scratch"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Early SPCW scratch- add with Prime Composite clarification.png": {
    "mtime": 1766091347.9499009,
    "timestamp": 1767913053.6784725,
    "meta": {
      "duration": 62.080803632736206,
      "context": "Context: SPCW Early Scratch Add with Prime. A composite file containing early SPCW scratch data, including an addition of Prime components for clarification purposes."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Early Streaming Diffs.png": {
    "mtime": 1766548093.8498833,
    "timestamp": 1767913181.865796,
    "meta": {
      "duration": 62.069491147994995,
      "context": "Context: Early Streaming Diffs"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Early Transmission flow control.png": {
    "mtime": 1766442268.948,
    "timestamp": 1767913310.0631053,
    "meta": {
      "duration": 62.08876299858093,
      "context": "Context: Early Transmission flow control"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Heat tracking- hex complexity tracking.png": {
    "mtime": 1766439998.7298183,
    "timestamp": 1767913437.128573,
    "meta": {
      "duration": 62.1063117980957,
      "context": "Context: Hexagon Heat Tracking System. A complex software module designed to monitor and analyze thermal patterns within a hexagonal grid structure."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Hex compression heat codes from 8x8 Matrix.png": {
    "mtime": 1766521428.0286517,
    "timestamp": 1767913565.3350542,
    "meta": {
      "duration": 62.06932520866394,
      "context": "Context: Hex compression heat codes from 8x8 Matrix"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Hex dissolve round trip heat from atomic decomp.png": {
    "mtime": 1766523371.6137607,
    "timestamp": 1767913693.5351849,
    "meta": {
      "duration": 62.0682315826416,
      "context": "Context: Hex dissolve round trip heat from atomic decomp"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Lane splitting dissolution.png": {
    "mtime": 1766613263.3714952,
    "timestamp": 1767913821.741249,
    "meta": {
      "duration": 62.097917795181274,
      "context": "Context: Lane splitting dissolution"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Matroska Networking Example- Nested and contemporary domains.png": {
    "mtime": 1767302449.4050667,
    "timestamp": 1767913949.9166512,
    "meta": {
      "duration": 62.0607328414917,
      "context": "Context: Matroska Networking Example  Nested and contemporary domains"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Matroska Networking outline.png": {
    "mtime": 1767229831.962498,
    "timestamp": 1767914077.6999664,
    "meta": {
      "duration": 62.07074284553528,
      "context": "Context: The Matroska Network Protocol. A digital container format designed to store multimedia content, optimized for streaming and efficient data transfer. It supports various file types and metadata."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Matroska via SPCW outline and domain specification.png": {
    "mtime": 1767229910.2210083,
    "timestamp": 1767914205.0502288,
    "meta": {
      "duration": 62.05384826660156,
      "context": "Context: A method of accessing Matroska media files using the SPCW (Secure Protocol for Content Transfer) protocol, with specific considerations regarding file outlines and domain restrictions.. This filename suggests a technical approach to interacting with Matroska content while adhering to security protocols. It implies attention to structural details within the file (outline) and limitations imposed by network domains."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Old persist scratchwork.png": {
    "mtime": 1765972155.4019883,
    "timestamp": 1767914321.8964903,
    "meta": {
      "duration": 62.07603406906128,
      "context": "Context: Scratchwork from an old project. This file likely contains unfinished work or temporary notes related to a past endeavor. It may include drafts, revisions, or ideas that were abandoned or superseded."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Output buckets.jpg": {
    "mtime": 1766654488.5996375,
    "timestamp": 1767914395.4692554,
    "meta": {
      "duration": 62.06271052360535,
      "context": "Context: Output Buckets. A collection of data outputs, likely organized for storage or further processing."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Prime Composite Interplay Clarification.jpg": {
    "mtime": 1766707736.251778,
    "timestamp": 1767914519.4097419,
    "meta": {
      "duration": 62.05756592750549,
      "context": "Context: Understanding the Relationship Between Prime and Composite Numbers. This document provides an in-depth analysis of how prime numbers interact with composite numbers, including their definitions, properties, and mathematical implications."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Prime potentiality for digits within primes.png": {
    "mtime": 1765971620.9247932,
    "timestamp": 1767914647.6056685,
    "meta": {
      "duration": 62.07481575012207,
      "context": "Context: Prime potentiality for digits within primes"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\SPCW CloseUp Wave.png": {
    "mtime": 1766135453.7413309,
    "timestamp": 1767914726.9509501,
    "meta": {
      "duration": 62.06294775009155,
      "context": "Context: SPCW CloseUp Wave"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\SPCW Threading.jpg": {
    "mtime": 1766707169.8828528,
    "timestamp": 1767914802.576343,
    "meta": {
      "duration": 62.08377385139465,
      "context": "Context: ```python import json  def analyze_filename(filename):     \"\"\"     Analyze a filename to extract potential title and description.          Parameters:     filename (str): The filename to be analyzed. "
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\SPCW early waveform.png": {
    "mtime": 1766135523.678462,
    "timestamp": 1767914929.8357413,
    "meta": {
      "duration": 62.09111714363098,
      "context": "Context: ```python import re  def analyze_filename(filename):     \"\"\"     Extracts meaningful metadata from a filename using regex patterns.          Args:         filename (str): Input filename          Retur"
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\SPCWaveform Necessity GPF filtering.png": {
    "mtime": 1766283552.611512,
    "timestamp": 1767915049.3640563,
    "meta": {
      "duration": 62.083812952041626,
      "context": "Context: Spectral Power Density (SPC) Waveform: Necessity of Gaussian Probability Function (GPF) Filtering. This filename refers to a technique used in signal processing and analysis. It involves the application of a Gaussian probability function as a filter to waveforms, particularly those derived from Spectral Power Density calculations. The purpose is likely to smooth or refine the waveform data by reducing noise and enhancing meaningful features."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Scalable Chunking from context compression.png": {
    "mtime": 1766436948.5353396,
    "timestamp": 1767915129.1975126,
    "meta": {
      "duration": 62.06901741027832,
      "context": "Context: Scalable Compression Techniques for Data Processing. This document explores advanced methods to reduce data size while maintaining essential information. It covers compression algorithms, metadata optimization, and file organization techniques."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Trucation for non square inputs.png": {
    "mtime": 1766552189.310166,
    "timestamp": 1767915254.326052,
    "meta": {
      "duration": 62.07174229621887,
      "context": "Context: Truncation. A method that discards data or content to fit within a smaller size limit, especially when the input is not a perfect square."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\Video Streaming Flow Meta and Delta Heat.png": {
    "mtime": 1766552134.7308345,
    "timestamp": 1767915324.5891247,
    "meta": {
      "duration": 62.06427502632141,
      "context": "Context: Video Streaming Flow. A comprehensive analysis of metadata and delta heat in video streaming systems."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\combinatoric paneling.tiling.png": {
    "mtime": 1766125659.45605,
    "timestamp": 1767915393.8007562,
    "meta": {
      "duration": 62.0542528629303,
      "context": "Context: Combinatorial Paneling and Tiling. This script deals with the combinatorial aspects of paneling and tiling problems, which involve arranging shapes or patterns into a larger structure. It may include techniques like generating combinations, permutations, or recursive algorithms to partition spaces or surfaces."
    }
  },
  "C:\\Users\\Nauti\\Desktop\\LOGOS CURSOR\\LOGOS Notes\\scratch Prime distribution and mod locking.png": {
    "mtime": 1765971821.4551406,
    "timestamp": 1767915462.9365075,
    "meta": {
      "duration": 62.058090925216675,
      "context": "Context: Scratch - Prime Distribution & Mod Locking. This project likely involves creating a prime number distribution system with modular arithmetic functionality. The goal may be to optimize distribution of prime numbers or implement cryptographic protocols using mod locking for secure data exchange."
    }
  }
}