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Spooky2 Databases

Spooky2 includes four factory databases – DNA, Base Pairs, Molecular Weight and Main – plus any collections you add to your custom file. Together they form one of the world’s largest frequency sets.

Settings, Presets and Graphs can be seen on the right-hand side of the screen, while on the left are several controls to assist with managing generator communication as well as an Errors pane.


PROV is a standard for describing provenance of data sets. It uses a functional-style syntax which can be read by a parser and includes an identifier and ordered list of terms characterizing an element (identifiers are known as names in PROV-N syntax while terms are called arguments); each expression in PROV-N has at least a predicate and an argument; additional elements may further characterize its contents.

New: Channel Control panel now features a Frequency Slider that enables easy adjustments of Out 1’s frequency output during Programs. Each frequency change resets its offset back to zero.

Changed: Enhancements were made to both the interface and functionality in order to make it more user-friendly, such as when a generator develops a fault; its display will indicate this with a red “X”. This helps users avoid confusion when viewing generator displays.


The BIO database features over 40,000 frequencies for healing and killing parasites, viruses, bacteria and other pathogens as well as detoxing and regeneration of cells. These frequencies can be applied directly to the body using tens and kits but for best results use nonstop Remote Mode sessions in combination with proper hydration.

DNA hosts over 1,650 programs targeting DNA-based disease-causing pathogens while BP and MW offer over 23,900 programs that focus on drugs, supplements and other important molecules for health.

Import Preset from Spooky2 into Program Database | Importing Spooky2 Presets into Your Current Program Using Spooky2 will import frequencies directly into the current program according to rules defined by Program Editor, while this tab records historical errors reported by Spooky2. Use Clear button for clearing error list


The VEGA Server software orchestrates each aspect of VEGA Control System, from users and studios to devices and their associated users. It is built to accommodate your facility’s growth as you add users or studios; its cluster installation support enables geographical redundancy as well as load distribution within studio or production locations.

VEGA also includes the powerful VEGA Boost 2.0 signal processor to enhance power for use both in Contact Mode and Remote treatments. It quadruples generator power while offering dedicated outputs for each remote model as well as pass through connections for BNC-to-alligator clips cables used for Contact treatments.

Issues pertaining to overlapping icons on vega-accordion and text alignment on vega-input-select have been resolved, while mobile environments now display correctly for the date-picker. A fix was also implemented for range layout on light mode date-pickers as well as improved contrast for accessibility purposes.


CAFL is an efficient fuzzing library with a strong emphasis on clustering features. Unlike FL, its clustering functions use local graph representation instead of collaboratively computed global models for lower communication overhead and improved clustering features.

CAFL takes an alternative approach by first trimming input to reduce its size based on the assumption that shorter fuzzer runs require less processing time, then saving this trimmed input to a queue for future testing.

The fuzzer utilizes this queue to generate new sets of fuzzing tests through various mutations. For instance, it might recursively remove blocks before merging two tuples together using havoc stages in order to generate new test cases that have improved code coverage – any successful ones are then added back into its queue by the fuzzer.


The ETDFL database is an exhaustive compilation of disease frequencies researched by bio resonance clinics in Germany. It has become the go-to reference point for Royal Rife Machine enthusiasts worldwide and is used widely across clinical environments worldwide.

Spooky2 comes equipped with four factory databases – DNA, BP, MW and CAFL, plus your own custom ones – plus you can add custom databases of your own to form the main Spooky2 frequency database which has over 40,000 programs and continues to expand! Each program comes complete with its own description and effect description which can assist when choosing a frequency to fit a situation and assist users when working with generators like Rife Digital. Furthermore, frequencies are listed using their hexadecimal code listing which helps when programming Rife Digital for instance.


The XTRA program is an insightful database designed for use with Spooky2 Plasma devices as well as several others, which contains many beneficial frequencies that may assist with various health conditions. Furthermore, its frequency programs can also be imprinted onto water through quantum entanglement and applied directly – these have been demonstrated to stimulate DNA repair while aiding detoxification processes.

The program includes several other features, such as global transport controls for multi-generator rigs and pause scheduling, Windows 32 bit and 64 bit operating systems support, internet controls for updating database online updates, as well as MORs detection as well as “Yes/No” body reactions.

Spooky2 can only unzip and read this data, in order to prevent third parties from profiteering off planned frequency expansion projects.


Spooky2 is an advanced frequency therapy system with customizable frequency lists to address various health conditions. Featuring over 59,700 frequencies to choose from and the ability to create custom programs, Spooky2 also comes equipped with a biofeedback scanner which enables users to check for pathogens within their body.

This device comes equipped with several transmission modes, including remote, contact, plasma and cold laser transmission modes. Its versatility is truly astonishing; this machine can act as an insect pest controller by eliminating them using Clark zapping technology or it can make high-grade colloidal silver for advanced health benefits. Ideal for anyone just getting into rifing, its user-friendly controls make creating treatments simple while its built-in speaker provides audio frequency entrainment audio frequency entrainment audio frequency entrainment audio frequencies are included for enhanced listening experience


RIFE is a Java framework that enables developers to declaratively specify what features of their application they require by means of external configuration files. It offers all of the same functionality as popular frameworks like Struts but with greater maintainability and less boilerplate code.

Spooky2‘s main database consists of four factory databases – DNA, Base Pairs, Molecular Weight plus your custom file – that make up its main component. Together they form the largest frequency database ever.

RIFE provides mapping between beans and relational tables, but its coverage is less extensive than what you might find with other frameworks. Instead, RIFE creates its own persistence layer by wrapping existing JavaBeans methods allowing for easy storage, insert, and retrieval of information. Furthermore, its approach to persistency includes an extensive library of conversions between types that is one key feature.


BFB allows you to save and restore frequency sets, waveforms and settings. Furthermore, it features global transport controls for multi-generator rigs with global transport controls for each generator, pause scheduling and autostart, as well as Internet updates of its main frequency database.

Each BFB cycle duplicates some telomeric region of chromosome, leaving characteristic copy number patterns. Previous groups attempted to assess these patterns by manually inspecting data sets and searching for count vectors which generate them; this approach proved time consuming, thus restricting which copy number patterns could be evaluated.

Our new algorithm is faster, allowing larger numbers of segments to be evaluated in linear time. Here, we present implementation details for decision, search, and distance variants of this algorithm as well as results from simulation experiments.