Lexicon PCM Total Bundle LIBRARIES

Lexicon PCM Total Bundle Mac &windows

Dive into the realm of audio excellence with the Lexicon PCM Native Total Plug-in Bundle. This comprehensive package unveils the same groundbreaking algorithms that have adorned chart-topping records over the past four decades. With a total of fourteen legendary reverbs and effects (seven of each), this bundle enriches your digital audio workstation (DAW) with indispensable ingredients for creating hits. The creative possibilities are boundless as you harness this powerful arsenal, leveraging its graphical real-time display to fuel your inspiration and enhance your workflow. Elevate your productions with access to the renowned reverbs and effects used by world-class studios and post-production houses, all within the Lexicon PCM Native Total Plug-in Bundle.

Step into a world of mythical reverbs in your studio with the Lexicon PCM Native Reverb Plug-in Bundle. Take command of seven world-class Lexicon reverbs, backed by Lexicon's more than 35 years of industry leadership in digital reverb and effects. Immerse yourself in the finest sounds through hundreds of remarkable presets. Compatible as a VST, AU, or RTAS plug-in, the PCM Native Reverb Plug-in Bundle features a visual EQ section, savable presets, and full automation support. Brace yourself for exceptional reverb quality as you integrate the Lexicon PCM Native Reverb Plug-in Bundle into your creative toolkit.

Unleash jaw-dropping effects with Lexicon’s PCM Native Effects Plug-in Bundle. This collection offers seven top-tier professional algorithms, carefully selected from Lexicon's storied history of industry-leading effects. From pitch shifting and chorus to random delays and multi-voice effects, PCM Native Effects equips you with the tools to craft truly inspiring mixes within your DAW. Experience the pinnacle of sonic quality and cutting-edge functionality. Sweetwater's dream comes true as classic Lexicon sounds are at your fingertips in plug-in format.

Experience the grand lineage of Lexicon quality with the PCM Native Effects Plug-in Bundle. Since the 1970s, Lexicon has been synonymous with world-class digital reverb and effects. The top music and post-production studios globally rely on Lexicon for the professional polish that defines their products. Whether you're tuning in to the radio or watching a Hollywood film, the unmistakable imprint of Lexicon reverb and effects is everywhere. Infuse your studio's virtual rack with the genuine Lexicon vibe, courtesy of the PCM Native Effects Plug-in Bundle."

Native Instruments – Factory Library 2 Download

Native Instruments Factory Library 2 is a remarkable and indispensable addition to the arsenal of music producers, sound designers, and musicians worldwide. This downloadable treasure trove of sonic excellence builds upon the legacy of its predecessor, offering an extensive collection of meticulously crafted sounds and instruments that serve as a boundless source of creative inspiration.

At its core, Factory Library 2 is a sonic playground, boasting a vast array of instruments, synthesizers, effects, and samples that cater to a diverse spectrum of musical genres and styles. Whether you're crafting electronic beats, exploring cinematic soundscapes, or diving into the realms of EDM, hip-hop, or orchestral composition, this library has you covered.

What sets Factory Library 2 apart is its commitment to sonic fidelity and innovation. It leverages cutting-edge sampling and synthesis techniques, resulting in lifelike, organic sounds that are both expressive and customizable. The intuitive user interface ensures that even novices can easily navigate and manipulate these sounds to suit their creative visions. https://extraplugins.com/product/native-instruments-factory-library-2-kontakt/

I used some software to rip the instrumental from the new Weird Al polka for my mashup, and I figured posting it separate could be cool for anyone interested

Microsoft Musical Instruments (1992)

volition! plus the coach in still questionable but better quality

crownhead was @volivolition 's idea! there you go. the blorbo, the armor is a hc i've seen a lot and i am personally obsessed

trying to restrain myself from hating on this dude in a music production server i'm in for sharing his AI music. dawg your work is soulless and sounds like it was made in a trash compactor

who could have predicted that me overconfidentally using new software without reading directions or using a tutorial would lead to me making mistakes. never saw this coming.

ELISA: A Powerful Tool for Detecting the Invisible

ELISA, or Enzyme-Linked Immunosorbent Assay, has become a cornerstone of medical diagnostics and biological research. This versatile technique allows scientists to detect and quantify minute amounts of target molecules, such as proteins, antibodies, and even viruses, with remarkable accuracy. In this blog, we'll delve into the world of ELISA, exploring its various types, its applications, and the exciting future directions this technology holds.

At its core, ELISA relies on the exquisite specificity of antibodies. Antibodies are highly specialized proteins produced by the immune system in response to foreign invaders. Each antibody can bind to a unique structure, called an antigen, on a specific molecule. In an ELISA, scientists leverage this binding property to create a sensitive detection system.

The 1960s witnessed a surge in interest in immunoassays, techniques that utilize the specificity of antibodies to detect target molecules. One such technique, radioimmunoassay (RIA), developed by Rosalyn Yalow and Solomon Berson, revolutionized medical diagnostics. RIA used radioactively labeled antibodies to detect antigens, offering high sensitivity. However, concerns regarding the safety of radioactive materials fueled the search for a safer alternative. The year 1971 marked a turning point. Independently, Eva Engvall and Peter Perlmann published their work on a novel technique – the enzyme-linked immunosorbent assay (ELISA). ELISA replaced radioactive labels with enzymes, eliminating the safety concerns associated with RIA. Like RIA, ELISA harnessed the specific binding between antibodies and antigens. However, it employed enzymes that could generate a detectable signal, such as a color change, upon interacting with a substrate. This innovation paved the way for a safer and more user-friendly diagnostic tool.

The basic ELISA protocol involves immobilizing the target antigen on a solid surface like a plate well. Then, a sample containing the molecule of interest (e.g., a suspected virus) is introduced. If the target molecule is present, it will bind to the immobilized antigen. Next, an antibody specific to the target molecule, linked to an enzyme, is introduced. This "detection antibody" binds to the target molecule already attached to the antigen. Finally, a substrate specific to the enzyme is added. This antigen-antibody binding is visualized using an enzyme linked to a reporter molecule. When the enzyme encounters its substrate, a detectable signal is produced, such as a color change or luminescence. The intensity of this signal is directly proportional to the amount of antigen present in the sample, allowing for quantification. The beauty of ELISA lies in its adaptability. Several variations exist, each tailored for specific detection needs.

The Four Main ELISA Formats are:

Direct ELISA: Simplicity at its finest. In this format, the antigen is directly coated onto the ELISA plate. A labeled antibody specific to the antigen is then introduced, binding directly to its target. After washing away unbound molecules, the enzyme linked to the antibody generates a signal upon addition of the substrate. Direct ELISA offers a rapid and straightforward approach, but sensitivity can be lower compared to other formats due to the lack of amplification.

Indirect ELISA: Unveiling the Power of Amplification. Similar to the direct ELISA, the antigen is first coated onto the plate. However, instead of a labeled primary antibody, an unlabeled one specific to the antigen is used. This is followed by the introduction of a labeled secondary antibody that recognizes the species (e.g., mouse, rabbit) of the primary antibody. This two-step approach acts as an amplification strategy, significantly enhancing the signal compared to the direct ELISA. However, the presence of an extra incubation step and the potential for cross-reactivity with the secondary antibody add complexity.

Sandwich ELISA: Capturing the Antigen Between Two Antibodies. Here, the capture antibody, specific for one region of the antigen, is pre-coated onto the ELISA plate. The sample containing the antigen is then introduced, allowing it to be "sandwiched" between the capture antibody and a detection antibody specific for a different region of the same antigen. A labeled secondary antibody or a labeled detection antibody itself can then be used to generate the signal. Sandwich ELISA boasts high sensitivity due to the double-antibody recognition and is often the preferred format for quantifying analytes.

Competitive ELISA: A Race for Binding Sites. In this format, the antigen competes with a labeled antigen (usually a known amount) for binding sites on a capture antibody pre-coated onto the plate. The more antigen present in the sample, the less labeled antigen can bind to the capture antibody. Following a washing step, the amount of bound labeled antigen is measured, providing an inverse relationship between the signal and the concentration of antigen in the sample. Competitive ELISA is particularly useful for studying small molecules that may be difficult to directly conjugate to an enzyme.

ELISA's Reach: From Diagnostics to Research. The applications of ELISA are as vast as they are impressive. Let's delve into some key areas where ELISA plays a vital role:

Unveiling the Mysteries of Disease: Diagnostics: ELISA is a cornerstone of diagnosing infectious diseases like HIV, Hepatitis, and Lyme disease. It detects antibodies produced by the body in response to the invading pathogen, providing valuable information for early detection and treatment. Monitoring Autoimmune Diseases: ELISA helps monitor autoimmune diseases like rheumatoid arthritis and lupus by measuring specific antibodies associated with these conditions. Cancer Screening: Certain cancers can be detected by identifying tumor markers, proteins elevated in the blood of cancer patients. ELISA assays are being developed to detect these markers for early cancer screening.

Safeguarding Food Quality: Allergen Detection: Food allergies can be life-threatening. ELISA ensures food safety by enabling the detection of allergens like peanuts, gluten, and milk in food products, protecting consumers with allergies. Monitoring Foodborne Pathogens: ELISA can identify harmful bacteria, viruses, and toxins in food, preventing outbreaks of foodborne illnesses.

Environmental Monitoring: Pollutant Detection: ELISA can detect pollutants like pesticides and herbicides in water and soil samples, contributing to environmental protection efforts. Microbial Analysis: This technique can be used to identify and quantify specific microbes in environmental samples, providing insights into ecosystem health.

Research and Development: ELISA plays a crucial role in various research fields: Drug Discovery: It helps researchers assess the effectiveness of new drugs by measuring drug-target interactions and monitoring drug levels in the body. Vaccine Development: ELISA is instrumental in developing vaccines by evaluating immune responses to vaccine candidates. Basic Research: Scientists use ELISA to study various biological processes by detecting and quantifying specific molecules involved in these processes.

Despite its established role, ELISA is evolving alongside technological advancements. New multiplex platforms allow for the simultaneous detection of various targets in a single sample, boosting efficiency in biomarker discovery and disease analysis. Automation streamlines workflows minimizes errors, and increases throughput, making high-throughput screening feasible in drug development and clinical settings. Miniaturization and portable devices enable rapid on-site diagnostics, providing healthcare professionals with real-time data for quicker interventions. Additionally, ongoing research is improving assay sensitivity, reducing background noise, and expanding detection limits, allowing for the identification of trace analytes and early disease biomarkers with greater accuracy than ever before. Integration of ELISA with emerging technologies such as microfluidics, nanotechnology, and artificial intelligence holds promise for enhancing assay performance, scalability, and data analysis capabilities.

These advancements hold promise for even wider applications of ELISA in the future. ELISA has revolutionized our ability to detect and quantify biological molecules. Its versatility, accuracy, and adaptability make it an invaluable tool across various scientific disciplines. As research continues to refine and innovate ELISA techniques, we can expect even more exciting possibilities to emerge in the years to come. ELISA's future is bright, promising to play a pivotal role in unraveling the mysteries of the biological world and improving human health.

Cultist Base // Doom Eternal (2020)

Teenage dream is a song of all time I’ll never forget listening to it as a 13 yr old and breaking the news to my 11 yr old friend that “let’s go all the way tonight” was NOT about a road trip

13 years old……… *my bones creak* I was fully out there with peoples hands on me in my skin tight jeans in college like don’t say this to me!!!! Very funny about your friend though, how precious she thought they were going all the way….. to the Grand Canyon for some photos.

I think my minor obsession with older touhou music (among other things) has gotten me to where I don't even mind and actually really enjoy a lot of music that sounds very obviously like midi. Sometimes it doesn't even occur to me that most people hear midi music and immediately jump to clowning on it.

Like I once ran a touhou song through my q-chord to test it and recorded it for a friend bc I thought it sounded really good and then I eventually saw they shared it with some other people saying something along the lines of "lol look at this shitty midi thing" not mad at them ofc, I don't think they meant it to be mean, but man :[ I didn't share it bc I thought it sounded funny, i shared it bc that specific device made it sound especially good!!! I didn't ever indicate it was done as a joke either, I just liked how the q-chord made Luna Dial sound god dammit :/

Tbh i used to like midi mostly ironically bc some old midi program was the only music software I really had available to me at the time, but i think most of the irony is gone. Midi is cool and fun. If you dare disparage midi in my presence you will die by my sword.

Actually yknow what listen to this shit and tell me this doesn't go hard (full disclosure, I did NOT make this midi, this is just the midi arrangement of luna dial from eosd)

(And of you're curious, you can find the eosd midis played on an sc-88 pro like zun intended on youtube)

IA 2.0 voisona test with a short version of drag on dragoon's ending B song tsukiru/exhausted :) now i can hear Lia's beautiful dulcet tones sing scary scary songs

Artificial Intelligence Revolutionizes the Music World: The Case of "Neural Notes Revolution"

Artificial intelligence (AI) is rapidly transforming our world, permeating sectors from healthcare to industry, education to transportation. This technology, which aims to replicate and surpass human cognitive abilities, promises to revolutionize the way we live and work.

The applications of AI are numerous and ever-expanding: from medical diagnosis to autonomous driving, data analysis to content creation. A particularly intriguing field is music, where AI is demonstrating remarkable potential.

Recently, there has been much discussion about AI-based music generation platforms like "Suno" and "Udio," accused of violating numerous artists' copyrights to train their algorithms. These controversies highlight the complex ethical and legal issues that AI raises in the artistic field.

In this context, the Italian project "Neural Notes Revolution" emerges, demonstrating how, with the aid of AI programs, the study of algorithms suitable for targeted generation of musical styles, voices, song structures, and with adequate post-processing, it's possible to produce musical pieces of any genre and style, in any language, in relatively short timeframes.

The project also leverages other generative AI platforms such as OpenAI's ChatGPT (Microsoft group, of which Elon Musk was a co-founder), Anthropic's Claude AI, and Google's Gemini. These technologies allow for the generation of texts, both original and based on precise or imaginative prompts, in numerous languages, even using expressions typical of specific localities and dialects.

However, "Neural Notes Revolution" still faces some challenges. The results provided by ChatBOTs require careful verification, and in the music field, generation platforms have significant limitations. In particular, "Suno" and "Udio" lack a precise and rigorous syntax that allows for accurate results. Often, the outcomes are even opposite to those desired, forcing a trial-and-error approach. One of the major limitations is the near-total impossibility of having clear style changes within the same song.

Expected future developments include the ability to modify produced songs in a targeted manner. It would be useful to have separate files for the vocal part, the musical backing, and the lyrics in subtitle format. Moreover, there's hope to be able to modify individual parts of text or music, and above all, to have a correct and rigorously respected syntax for the song structure and use of styles.

The use of these platforms raises several issues. On one hand, they offer new creative possibilities and democratize music production. On the other, they raise concerns about copyright, artistic authenticity, and the future of work in the music industry.

In conclusion, while giving space to creativity, we are still far from competing with the styles, voices, and tones of artists of all time. However, in defense of the "new artists" of the AI era, it must be recognized that creativity and skill are still necessary to produce musical pieces of a certain depth. This is particularly relevant in a modern musical landscape that often offers music devoid of artistic and cultural significance. AI in music thus represents both a challenge and an opportunity, requiring a balance between technological innovation and preservation of human artistic expression.

Miss kendra as a creative and amazing music fan with incredible taste; out of curiosity have you ever been tempted to try and make music?

omg u flatter me 🥰 honestly at one point in my vocaloid phase i was sooooo sure i was abt to start making my own music w vocaloids and hacked a free download of vy2 yuma iirc and then opened it up and realized i have 0 idea how to read music let alone make it 😭😭😭😭 even tho i can't sing well i do have a p good musical ear so periodically ive thought abt asking my musician friend to teach me how to make beats but then decide that too much work and stick w art instead

Die besten Software-Tools für DJs und Musikproduzenten

[vc_row][vc_column][vc_column_text]Software Tools – DJs und Musikproduzenten – In der dynamischen Welt der Musikproduktion und DJing spielen Software-Tools eine entscheidende Rolle. Sie ermöglichen es Künstlern, ihre Kreativität voll auszuschöpfen, komplexe Tracks zu erstellen und nahtlose Mixe zu gestalten. Ob du ein aufstrebender DJ oder ein erfahrener Musikproduzent bist, die richtigen Tools…

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COMPUTER-SOFTWARE ENGINEERING RISING IN THE AMERICAN SPACE PROGRAM.

PIC INFO: Spotlight on American computer programmer Margaret Hamilton (b. 1936), at the MIT Instrumentation Laboratory, during her time as lead flight software engineer for the Apollo space mission, c. 1969.

MINI-BIO: "She and her team wrote the code for the inflight software of the spacecraft, and her work contributed to the safe landing of Apollo 11 on the moon in 1969."

Sources: www.thenation.com/article/archive/peoples-history-of-personal-computing-joy-lisi-rankin-review-silicon-valley-bros & X.